CONTACT
By Carl Sagan
For
Alexandra,
who comes
of age
with the
Millennium.
May we
leave your generation a world
better
than the one we were given.
PART I
THE
MESSAGE
My heart trembles like a poor leaf.
The
planets whirl in my dreams.
The stars
press against my window.
I rotate
in my sleep.
My bed is
a warm planet.
-MARVIN MERCER
P.S. 153,
Fifth Grade, Harlem
New York
City, N.Y. (1981)
CHAPTER 1
Transcendental
Numbers
Little
fly,
Thy summer's
play
My
thoughtless hand
Has
brushed away.
Am not I
A fly like
thee?
Or art not
thou
A man like
me?
For I dance
And drink
and sing,
Till some
blind hand
Shall
brush my wing.
-WILLIAM BLAKE
Songs of
Experience
"The
Fly," Stanzas 1-3 (1795)
By human
standards it could not possibly have been artificial: It was the size of a
world. But it was so oddly and intricately shaped, so clearly intended for some
complex purpose that it could only have been the expression of an idea. Gliding
in polar orbit about the great blue-white star, it resembled some immense,
imperfect polyhedron, encrusted with millions of bowl-shaped barnacles. Every
bowl was aimed at a particular part of the sky. Every constellation was being
attended to. The polyhedral world had been performing its enigmatic function
for eons. It was very patient. It could afford to wait forever.
When they
pulled her out, she was not crying at all. Her tiny brow was wrinkled, and then
her eyes grew wide. She looked at the bright lights, the white and green-clad
figures, the woman lying on the table below her. On her face was an odd
expression for a newborn--puzzlement perhaps.
*
* *
When she was two years old, she would
lift her hands over her head and say very sweetly, "Dada, up." His
friends expressed surprise. The baby was polite. "It's not
politeness," her father told them. "She used to scream when she
wanted to be picked up. So once I said to her, `Ellie, you don't have to
scream. Just say, "Daddy, up."' Kids are smart. Right, Presh?"
So now she was up all right, at a giddy
altitude, perched on her father's shoulders and clutching his thinning hair.
Life was better up here, far safer than crawling through a forest of legs.
Somebody could step on you down there. You could get lost. She tightened her
grip.
Leaving the monkeys, they turned a corner
and came upon a great spindly-legged, long-necked dappled beast with tiny horns
on its head. I towered over them. "Their necks are so long, the talk can't
get out," her father said. she
felt sorry for the poor creature, condemned to silence. But she also felt a joy
in its existence, a delight that such wonders might be.
*
* *
"Go ahead, Ellie," her mother
gently urged her. There was a lilt in the familiar voice. "Read it."
Her mother's sister had not believed that Ellie, age three, could read. The
nursery stories, the aunt was convinced, had been memorized. Now they were
strolling down State Street on a brisk March day and had stopped before a store
window. Inside, a burgundy-red stone was glistening in the sunlight.
"Jeweler," Ellie read slowly, pronouncing three syllables.
*
* *
Guiltily, she let herself into the spare
room. The old Motorola radio was on the shelf where she remembered it. It was
very big and heavy and, hugging it to her chest, she almost dropped it. On the
back were the words "Danger. Do Not Remove." But she knew that if it
wasn't plugged in, there was no danger in it.
With her tongue between her lips, she removed the screws and exposed the
innards. As she had suspected, there were no tiny orchestras and miniature
announcers quietly living out their small lives in anticipation of the moment
when the toggle switch would be clicked to "on." Instead there were
beautiful glass tubes, a little like light bulbs. Some resembled the churches
of Moscow she had seen pictured in a book. The prongs at their bases were
perfectly designed for the receptacles they were fitted into. With the back off
and the switch "on," she plugged the set into a nearby wall
socket. If she didn't touch it, if she
went nowhere near it, how could it hurt her?
After a few moments, tubes began to glow
warmly, but no sound came. The radio was "broken," and had been
retired some years before in favor of a more modern variety. One tube was not
glowing. She unplugged the set and pried the uncooperative tube out its
receptacle. There was a metallic square inside, attached to tiny wires. The
electricity runs along the wires, she thought vaguely. But first it has to get
into the tube. One of the prongs seemed bent, and she was able after a little
work to straighten it. Reinserting the tube and plugging the set in again, she
was delighted to see it begin to glow, and an ocean of static arose around her.
Glancing toward the closed door with a start, she lowered the volume. She
turned the dial marked "frequency," and came upon a voice talking
excitedly--as far as she could understand, about a Russian machine that was in
the sky, endlessly circling the Earth. Endlessly, she thought. She turned the
dial again, seeking other stations. After a while, fearful of being discovered,
she unplugged the set, screwed the back on loosely, and with still more
difficulty lifted the radio and placed it back on the shelf.
As she left the spare room, a little out
of breath, her mother came upon her and she started once more.
"Is everything all right,
Ellie?"
"Yes, Mom."
She affected a casual air, but her heart
was beating, her palms were sweating. She settled down in a favorite spot in
the small backyard and, her knees drawn up to her chin, thought about the
inside of the radio. Are all those tubes really necessary? What would happen if
you removed them one at a time? Her father had once called them vacuum tubes.
What was happening inside a vacuum tube? Was there really no air in there? How
did the music of the orchestras and the voices of the announcers get in the
radio? They liked to say, "On the air." Was radio carried by the air?
What happens inside the radio set when you change stations? What was
"frequency"? Why do you have to plug it in for it to work? Could you
make a kind of map showing how the electricity runs through the radio? Could
you take it apart without hurting yourself? Could you put it back together
again?
"Ellie, what have you been up
to?" asked her mother, walking by with laundry for the clothesline.
"Nothing, Mom. Just thinking."
*
* *
In her tenth summer, she was taken on
vacation to visit two cousins she detested at a cluster of cabins along a lake
in the Northern Peninsula of Michigan. Why people who lived on a lake in
Wisconsin would spend five hours driving all the way to a lake in Michigan was
beyond her. Especially to see two mean and babyish boys. Only ten and eleven.
Real jerks. How could her father, so sensitive to her in other respects, want
her to play day in and day out with twerps? She spent the summer avoiding them.
One sultry moonless night after dinner
she walked down alone to the wooden pier. A motorboat had just gone by, and her
uncle's rowboat tethered to the dock was softly bobbing in the starlit water.
Apart from distant cicadas and an almost subliminal shout echoing across the
lake, it was perfectly still. She looked up at the brilliant spangled sky and
found her heart racing.
Without looking down, with only her
outstretched hand to guide her, she found a soft patch of grass and laid
herself down. The sky was blazing with stars. There were thousands of them,
most twinkling, a few bright and steady. If you looked carefully you could see
faint differences in color. That bright one there, wasn't it bluish?
She felt again for the ground beneath
her; it was solid, steady... reassuring. Cautiously she sat up and looked left
and right, up and down the long reach of lakefront. She could see both sides of
the water. The world only looks flat, she thought to herself. Really it's
round. This is all a big ball... turning in the middle of the sky... once a day.
She tried to imagine it spinning, with millions of people glued to it, talking
different languages, wearing funny clothes, all stuck to the same ball.
She stretched out again and tried to
sense the spin. Maybe she could feel it just a little. Across the lake, a
bright star was twinkling between the topmost branches. If you squinted your
eyes you could make rays of light dance out of it. Squint a little more, and
the rays would obediently change their length and shape. Was she just imagining
it, or... the star was now definitely above the trees. Just a few minutes ago
it had been poking in and out of the branches. Now it was higher, no doubt
about it. That's what they meant when they said a star was rising, she told
herself. The Earth was turning in the other direction. At one end of the sky
the stars were rising. That way was called East. At the other end of the sky,
behind her, the cabins, the stars were setting. That way was called West. Once
every day the Earth would spin completely around, and the same stars would rise
again in the same place.
But if something as big as the Earth
turned once a day, it had to be moving ridiculously fast. Everyone she knew
must be whirling at an unbelievable speed. She though she could now actually
feel the Earth turn--not just imagine it in her head, but really feel it in the
pit of her stomach. It was like descending in a fast elevator. She craned her
neck back further, so her field of view was uncontaminated by anything on
Earth, until she could see nothing but black sky and bright stars.
Gratifyingly, she was overtaken by the giddy sense that she had better clutch
the clumps of grass on either side of her and hold on for dear life, or else
fall up into the sky, her tiny tumbling body dwarfed by the huge darkened
sphere below.
She actually cried out before she managed
to stifle the scream with her wrist. That was how her cousins were able to find
her. Scrambling down the slope, they discovered on her face an uncommon mix of
embarrassment and surprise, which they readily assimilated, eager to find some
small indiscretion to carry back and offer to her parents.
*
* *
The book was better than the movie. For
one thing, there was a lot more in it. And some of the pictures were awfully
different from the movie. But in both, Pinocchio--a life-sized wooden boy who
magically is roused to life--wore a kind of halter, and there seemed to be
dowels in his joints. When Geppetto is just finishing the construction of
Pinocchio, he turns his back on the puppet and is promptly sent flying by a
well- placed kick. At that instant the carpenter's friend arrives and asks him
what he is doing sprawled on the floor. "I am teaching," Geppetto
replies with dignity, "the alphabet to the ants."
The seemed to Ellie extremely witty, and
she delighted in recounting it to her friends. But each time she quoted it
there was an unspoken question lingering at the edge of her consciousness:
Could you teach the alphabet to the ants? And would you want to? Down there
with hundreds of scurrying insects who might crawl all over your skin, or even
sting you? What could ants know, anyway?
*
* *
Sometimes she would get up in the middle
of the night to go to the bathroom and find her father there in his pajama
bottoms, his neck craned up, a kind of patrician disdain accompanying the
shaving cream on his upper lip. "Hi, Presh," he would say. It was
short for "precious," and she loved him to call her that. Why was he
shaving at night, when no one would know if he had a beard?
"Because"--he smiled--"your mother will know." Years later,
she discovered that she had understood this cheerful remark only incompletely.
Her parents had been in love.
*
* *
After school, she had ridden her bicycle
to a little park on the lake. From a saddlebag she produced The Radio Amateur's
Handbook and A Connecticut Yankee in King Arthur's Court. After a moment's
consideration, she decided on the latter. Twain's hero had been conked on the
head and awakened in Arthurian England. Maybe it was all a dream or a delusion.
But maybe it was real. Was it possible to travel backwards in time? Her chin on
her knees, she scouted for a favorite passage. It was when Twain's hero is
first collected by a man dressed in armor who he takes to be an escapee from a
local booby hatch. As they reach the crest of the hill they see a city laid out
before them:
"`Bridgeport?' said I...
"`Camelot,' said he."
She stared out into the blue lake, trying
to imagine a city which could pass as both nineteenth- century Bridgeport and
sixth-century Camelot, when her mother rushed up to her.
"I've looked for you everywhere. Why
aren't you where I can find you? Oh, Ellie," she whispered,
"something awful's happened."
*
* *
In the seventh grade they were studying
"pi." It was a Greek letter that looked like the architecture at
Stonehenge, in England: two vertical pillars with a crossbar at top--?. If you
measured the circumference of a circle and then divided it by the diameter of
the circle, that was pi. At home, Ellie took the top of a mayonnaise jar,
wrapped a string around it, straightened the string out, and with a ruler
measured the circle's circumference. She did the same with the diameter, and by
long division divided the one number by the other. She got 3.21. That seemed
simple enough.
The next day the teacher, Mr. Weisbrod,
said that π was about 22/7, about 3.1416. But actually, if you wanted to
be exact, it was a decimal that went on and on forever without repeating the pattern
of numbers. Forever, Ellie thought. She raised her hand. It was the beginning
of the school year and she had not asked any questions in this class.
"How could anybody know that the
decimals go on and on forever?"
"That's just the way it is,"
said the teacher with some asperity.
"But why? How do you know? How can
you count decimals forever?"
"Miss Arroway"--he was
consulting his class list--"this is a stupid question. You're wasting the
class's time."
No one had ever called Ellie stupid
before, and she found herself bursting into tears. Billy Horstman, who sat next
to her, gently reached out and placed his hand over hers. His father had
recently been indicted for tampering with the odometers on the used cars he
sold, so Billy was sensitive to public humiliation. Ellie ran out of the class
sobbing.
After school she bicycled to the library
at the nearby college to look through books on mathematics. As nearly as she
could figure out from what she read, her question wasn't all that stupid.
According to the Bible, the ancient Hebrews had apparently thought that π
was exactly equal to three. The Greeks and Romans, who knew lots of things
about mathematics, had no idea that the digits in π went on forever
without repeating. It was a fact that had been discovered only about 250 years
ago. How was she expected to know if she couldn't ask questions? But Mr.
Weisbrod had been right about the first few digits. Pi wasn't 3.21. Maybe the
mayonnaise lid had been a little squashed, not a perfect circle. Or maybe she'd
been sloppy in measuring the string. Even if she'd been much more careful,
though, they couldn't expect her to measure an infinite number of decimals.
There was another possibility, though.
You could calculate pi as accurately as you wanted. If you knew something
called calculus, you could prove formulas for π that would let you
calculate it to as many decimals as you had time for. The book listed formulas
for pi divided by four. Some of them she couldn't understand at all. But there
were some that dazzled her: π /4, the book said, was the same as 1 - 1/3 +
1/5 - 1/7..., with the fractions continuing on forever. Quickly she tried to
work it out, adding and subtracting the fractions alternately. The sum would
bounce from being bigger than π /4 to being smaller than π /4, but
after a while you could see that this series of numbers was on a beeline for
the right answer. You could never get there exactly, but you could get as close
as you wanted if you were very patient. It seemed to her a miracle that the
shape of every circle in the world was connected with this series of fractions.
How could circles know about fractions? She was determined to learn calculus.
The book said something else: π was called
a "transcendental" number. There was no equation with ordinary
numbers in it that could give you π unless it was infinitely long. She had
already taught herself a little algebra and understood what this meant. And
π wasn't the only transcendental number. In fact there was an infinity of
transcendental numbers. More than that, there were infinitely more
transcendental numbers than ordinary numbers, even though π was the only
one of them she had ever heard of. In more ways than one, π was tied to
infinity.
She had caught a glimpse of something
majestic. Hiding between all the ordinary numbers was an infinity of
transcendental numbers whose presence you would never have guessed unless you
looked deeply into mathematics. Every now and then one of them, like π,
would pop up unexpectedly in everyday life. But most of them--an infinite
number of them, she reminded herself--were hiding, minding their own business,
almost certainly unglimpsed by the irritable Mr. Weisbrod.
*
* *
She saw through John Staughton from the
first. How her mother could ever contemplate marrying him-- never mind that it
was only two years after her father's death--was an impenetrable mystery. He
was nice enough looking, and he could pretend, when he put his mind to it, that
he really cared about you. But he was a martinet. He made students come over
weekends to weed and garden at the new house they had moved into, and then made
fun of them after they left. He told Ellie that she was just beginning high
school and was not to look twice at any of his bright young men. He was puffed
up with imaginary self-importance. She was sure that as a professor he secretly
despised her dead father, who had been only a shopkeeper. Staughton had made it
clear that an interest in radio and electronics was unseemly for a girl, that
it would not catch her a husband, that understanding physics was for her a
foolish and aberrational notion. "Pretentious," he called it. She
just didn't have the ability. This was an objective fact that she might as well
get used to. He was telling her this for her own good. She'd thank him for it
in later life. He was, after all, an associate professor of physics. He knew
what it took. These homilies would always infuriate her, even though she had
never before--despite Staughton's refusal to believe it--considered a career in
science.
He was not a gentle man, as her father
had been, and he had no idea what a sense of humor was. When anyone assumed
that she was Staughton's daughter, she would be outraged. Her mother and
stepfather never suggested that she change her name to Staughton; they knew
what her response would be.
Occasionally there was a little warmth in
the man, as when, in her hospital room just after her tonsillectomy, he had
brought her a splendid kaleidoscope.
"When are they going to do the
operation," she had asked, a little sleepily.
"They've already done it,"
Staughton had answered. "You're going to be fine." She found it
disquieting that whole blocks of time could be stolen without her knowledge,
and blamed him. She knew at the time it was childish.
That her mother could truly love him was
inconceivable. She must have remarried out of loneliness, out of weakness. She
needed someone to take care of her. Ellie vowed she would never accept a
position of dependence. Ellie's father had died, her mother had grown distant,
and Ellie felt herself exiled to the house of a tyrant. There was no one to
call her Presh anymore.
She longed to escape.
"`Bridgeport?' said I.
"`Camelot,' said he."
CHAPTER 2
Coherent
Light
Since I
first gained the use of reason my inclination toward learning has been so
violent and strong that neither the scoldings of other people... nor my own
reflections... have been able to stop me from following this natural impulse
that God gave me. He alone must know why; and He knows too that I have begged
Him to take the light of my understanding, leaving only enough for me to keep
His law, for anything else is excessive in a woman, according to some people.
And others say it is even harmful.
-JUANA INES DE LA CRUZ
Reply to
the Bishop of Puebla (1691), who had attacked her scholarly work as
inappropriate for her sex
I wish to propose for the reader's
favourable consideration a doctrine which may, I fear, appear wildly
paradoxical and subversive. The doctrine in question is this: that it is
undesirable to believe a proposition when there is no ground whatever for
supposing it true. I must, of course, admit that if such an opinion became
common it would completely transform our social life and our political system;
since both are at present faultless, this must weigh against it.
-BERTRAND RUSSELL
Skeptical
Essays, I (1928)
Surrounding
the blue-white star in its equatorial plane was a vast ring of orbiting
debris--rocks and ice, metals and organics--reddish at the periphery and bluish
closer to the star. The world- sized polyhedron plummeted through a gap in the
rings and emerged out the other side. In the ring plane, it had been
intermittently shadowed by icy boulders and tumbling mountains. But now,
carried along its trajectory toward a point above the opposite pole of the
star, the sunlight gleamed off its millions of bowl-shaped appendages. If you
looked very carefully you might have seen one of them make a slight pointing
adjustment. You would not have seen the burst of radio waves washing out from
it into the depths of space.
For all
the tenure of humans on Earth, the night sky had been a companion and an
inspiration. The stars were comforting. They seemed to demonstrate that the
heavens were created for the benefit and instruction of humans. This pathetic
conceit became the conventional wisdom worldwide. No culture was free of it.
Some people found in the skies an aperture to the religious sensibility. Many
were awestruck and humbled by the glory and scale of the cosmos. Others were
stimulated to the most extravagant flights of fancy.
At the
very moment that humans discovered the scale of the universe and found that
their most unconstrained fancies were in fact dwarfed by the true dimensions of
even the Milky Way Galaxy, they took steps that ensured that their descendants
would be unable to see the stars at all. For a million years humans had grown
up with a personal daily knowledge of the vault of heaven. I the last few
thousand years they began building and emigrating to the cities. In the last
few decades, a major fraction of the human population had abandoned a rustic
way of life. As technology developed and the cities were polluted, the nights
became starless. New generations grew to maturity wholly ignorant of the sky
that had transfixed their ancestors and that had stimulated the modern age of
science and technology. Without even noticing, just as astronomy entered a
golden age most people cut themselves off from the sky, a cosmic isolationism
that ended only with the dawn of space exploration.
*
* *
Ellie would look up at Venus and imagine
it was a world something like the Earth--populated by plants and animals and
civilizations, but each of them different from the kinds we have here. On the
outskirts of town, just after sunset, she would examine the night sky and
scrutinize that unflickering bright point of light. By comparison with nearby
clouds, just above her, still illuminated by the Sun, it seemed a little
yellow. She tried to imagine what was going on there. She would stand on tiptoe
and stare the planet down. Sometimes, she could almost convince herself that
she could really see it; a swirl of yellow fog would suddenly clear, and a vast
jeweled city would briefly be revealed. Air cars sped among the crystal spires.
Sometimes she would imagine peering into one of those vehicles and glimpsing
one of them. Or she would imagine a
young one, glancing up at a bright blue point of light in its sky, standing on
tiptoe and wondering about the inhabitants of Earth. It was an irresistible
notion: a sultry, tropical planet brimming over with intelligent life, and just
next door.
She consented to rote memorization, but
knew that it was at best the hollow shell of education. She did the minimum
work necessary to do well in her courses, and pursued other matters. She
arranged to spend free periods and occasional hours after school in what was
called "shop"--a dingy and cramped small factory established when the
school devoted more effort to "vocational education" than was now
fashionable. "Vocational education" meant, more than anything else,
working with your hands. There were lathes, drill presses, and other machine
tools which she was forbidden to approach, because no matter how capable she
might be, she was still "a girl." Reluctantly, they granted her
permission to pursue her own projects in the electronics area of the
"shop." She built radios more or less from scratch, and then went on
to something more interesting.
She built an encrypting machine. It was
rudimentary, but it worked. It could take any English- language message and
transform it by a simple substitution cipher into something that looked like
gibberish. Building a machine that would do the reverse--converting an
encrypted message into clear when you didn't know the substitution
convention--that was much harder. You could have the machine run through all
the possible substitutions (A stands for B, A stands for C, A stands for D...),
or you could remember that some letters in English were used more often than
others. You could get some idea of the frequency of letters by looking at the
sizes of the bins for each letter of type in the print shop next door.
"ETAOIN SHRDLU," the boys in print shop would say, giving pretty
closely the order of the twelve most frequently used letters in English. In
decoding a long message, the letter that was most common probably stood for an
E. Certain consonants tended to go together, she discovered; vowels distributed
themselves more or less at random. The most common three-letter word in the
language was "the." If within a word there was a letter standing
between a T and an E, it was almost certainly H. If not, you could bet on R or
a vowel. She deduced other rules and spent long hours counting up the frequency
of letters in various schoolbooks before she discovered that such frequency
tables had already been compiled and published. Her decrypting machine was only
for her own enjoyment. She did not use it to convey secret messages to friends.
She was unsure to whom she might safely confide these electronic and
cryptographic interests; the boys became jittery or boisterous, and the girls
looked at her strangely.
*
* *
Soldiers of the United States were
fighting in a distant place called Vietnam. Every month, it seemed, more young
men were being scooped off the street or the farm and packed off the Vietnam.
The more she learned about the origins of the war, and the more she listened to
the public pronouncements of national leaders, the more outraged she became.
The President and the Congress were lying and killing, she thought to herself,
and almost everyone else was mutely assenting. The fact that her stepfather
embraced official positions on treaty obligations, dominoes, and naked
Communist aggression only strengthened her resolve. She began attending
meetings and rallies at the college nearby. The people she met there seemed
much brighter, friendlier, more alive than her awkward and lusterless high
school companions. John Staughton first cautioned her and then forbade her to
spend time with college students. They would not respect her, he said. They
would take advantage of her. She was pretending to a sophistication she did not
have and never would. Her style of dress was deteriorating. Military fatigues
were inappropriate for a girl and a travesty, a hypocrisy, for someone who
claimed to oppose the American intervention in Southeast Asia.
Beyond pious exhortations to Ellie and
Staughton not to "fight," her mother participated little in these
discussions. Privately she would plead with Ellie to obey her stepfather, to be
"nice." Ellie now suspected Staughton of marrying her mother for her
father's life insurance--why else? He certainly showed no signs of loving
her--and he was not predisposed to be "nice." One day, in some
agitation, her mother asked her to do something for all their sakes: attend
Bible class. While her father, a skeptic on revealed religions, had been alive,
there was no talk of Bible class. How could her mother have married Staughton?
The question welled up in her for the thousandth time. Bible class, her mother
continued, would help instill the conventional virtues; but even more
important, it would show Staughton that Ellie was willing to make some
accommodation. Out of love and pity for her mother, she acquiesced.
So every Sunday for most of one school
year Ellie went to a regular discussion group at a nearby church. It was one of
the respectable Protestant denominations, untainted by disorderly evangelism.
There were a few high school students, a number of adults, mainly middle-aged
women, and the instructor, the minister's wife. Ellie had never seriously read
the Bible before and had been inclined to accept her father's perhaps
ungenerous judgment that it was "half barbarian history, half fairy
tales." So over the weekend preceding her first class, she read through
what seemed to be the important parts of the Old Testament, trying to keep an
open mind. She at once recognized that there were two different and mutually
contradictory stories of Creation in the first two chapters of Genesis. She did
not see how there could be light and days before the Sun was made, and had
trouble figuring out exactly who it was that Cain had married. In the stories
of Lot and his daughters, of Abraham and Sarah in Egypt, of the betrothal of
Dinah, of Jacob and Esau, she found herself amazed. She understood that
cowardice might occur in the real world--that sons might deceive and defraud an
aged father, that a man might give craven consent to the seduction of his wife
by the King, or even encourage the rape of his daughters. But in this holy book
there was not a word of protest against such outrages. Instead, it seemed, the
crimes were approved, even praised.
When class began, she was eager for a
discussion of these vexing inconsistencies, for an unburdening illumination of
God's Purpose, or at least for an explanation of why these crimes were not
condemned by the author or Author. But in this she was to be disappointed. The
minister's wife blandly temporized. Somehow these stories never surfaced in
subsequent discussion. When Ellie inquired how it was possible for the
maidservants of the daughter of Pharaoh to tell just by looking that the baby
in the bullrushes was Hebrew, the teacher blushed deeply and asked Ellie not to
raise unseemly questions. (The answer dawned on Ellie at that moment.)
When they came to the New Testament,
Ellie's agitation increased. Matthew and Luke traced the ancestral line of
Jesus back to King David. But for Matthew there were twenty-eight generations
between David and Jesus; for Luke forty-three. There were almost no names
common to the two lists. How could both Matthew and Luke be the Word of God?
The contradictory genealogies seemed to Ellie a transparent attempt to fit the
Isaianic prophecy after the event--cooking the data, it was called in chemistry
lab. She was deeply moved by the Sermon on the Mount, deeply disappointed by
the admonition to render unto Caesar what is Caesar's, and reduced to shouts
and tears after the instructor twice sidestepped her questions on the meaning
of "I bring not peace but the sword." She told her despairing mother
that she had done her best, but wild horses wouldn't drag her to another Bible
class.
*
* *
She was lying on her bed. It was a hot
summer's night. Elvis was singing, "One night with you, that's what I'm
beggin' for." The boys at the high school seemed painfully immature, and
it was difficult--especially with her stepfather's strictures and curfews--to
establish much of a relationship with the young college men she met at lectures
and rallies. John Staughton was right, she reluctantly admitted to herself, at
least about this: The young men, almost without exception, had a penchant for
sexual exploitation. At the same time, they seemed much more emotionally
vulnerable than she had expected. Perhaps the one caused the other.
She had half expected not to attend
college, although she was determined to leave home. Staughton would not pay for
her to go elsewhere, and her mother's meek intercessions were unavailing. But
Ellie had done spectacularly well on the standardized college entrance
examinations and found to her surprise her teachers telling her that she was
likely to be offered scholarships by well-known universities. She had guessed
on a number of multiple-choice questions and considered her performance a
fluke. If you know very little, only enough to exclude all but the two most
likely answers, and if you then guess at ten straight questions, there is about
one chance in a thousand, she explained to herself, that you'll get all then
correct. For twenty straight questions, the odds were one in a million. But
something like a million kids probably took this test. Someone had to get
lucky.
Cambridge, Massachusetts, seemed far
enough away to elude John Staughton's influence, but close enough to return
from on vacation to visit her mother--who viewed the arrangement as a difficult
compromise between abandoning her daughter and incrementally irritating her
husband. Ellie surprised herself by choosing Harvard over the Massachusetts
Institute of Technology.
She arrived for orientation period, a
pretty dark-haired young woman of middling height with a lopsided smile and an
eagerness to learn everything. She set out to broaden her education, to take as
many courses as possible apart from her central interests in mathematics,
physics, and engineering. But there was a problem with her central interests.
She found it difficult to discuss physics, much less debate it, with her
predominantly male classmates. At first they paid a kind of selective inattention
to her remarks. There would be a slight pause, and then they would go on as if
she had not spoken. Occasionally they would acknowledge her remark, even praise
it, and then again continue undeflected. She was reasonably sure her remarks
were not entirely foolish, and did not wish to be ignored, much less ignored
and patronized alternately. Part of it--but only a part--she knew was due to
the softness of her voice. So she developed a physics voice, a professional
voice: clear, competent, and many decibels above conversational. With such a
voice it was important to be right. She had to pick her moments. It was hard to
continue long in such a voice, because she was sometimes in danger of bursting
out laughing. So she found herself leaning towards quick, sometimes cutting,
interventions, usually enough to capture their attention; then she could go on
for a while in a more usual tone of voice. Every time she found herself in a
new group she would have to fight her way through again, just to dip her oar into
the discussion. The boys were uniformly unaware even that there was a problem.
Sometimes she would be engaged in a
laboratory exercise or a seminar when the instructor would say,
"Gentlemen, let's proceed," and sensing Ellie's frown would add,
"Sorry, Miss Arroway, but I think of you as one of the boys." The
highest compliment they were capable of paying was that in their minds she was
not overtly female.
She had to fight against developing too
combative a personality or becoming altogether a misanthrope. She suddenly
caught herself. "Misanthrope" is someone who dislikes everybody, not
just men. And they certainly had a word for someone who hates women:
"misogynist." But the male lexicographers had somehow neglected to coin
a word for the dislike of men. They were almost entirely men themselves, she
thought, and had been unable to imagine a market for such a word.
More than many others, she had been
encumbered with parental proscriptions. Her newfound freedoms--intellectual,
social, sexual--were exhilarating. At a time when many of her contemporaries
were moving toward shapeless clothing that minimized the distinctions between
the sexes, she aspired to an elegance and simplicity in dress and makeup that
strained her limited budget. There were more effective ways to make political
statements, she thought. She cultivated a few close friends and made a number
of casual enemies, who disliked her for her dress, for her political and
religious views, or for the vigor with which she defended her opinions. Her
competence and delight in science were taken as rebukes by many otherwise
capable young women. But a few looked on her as what mathematicians call an
existence theorem--a demonstration that a woman could, sure enough, excel in
science--or even as a role model.
At the height of the sexual revolution,
she experimented with gradually increasing enthusiasm, but found she was
intimidating her would-be lovers. Her relationships tended to last a few months
or less. The alternative seemed to be to disguise her interests and stifle her
opinions, something she had resolutely refused to do in high school. The image
of her mother, condemned to a resigned and placatory imprisonment, haunted
Ellie. She began wondering about men unconnected with the academic and
scientific life.
Some women, it seemed, were entirely
without guile and bestowed their affections with hardly a moment's conscious
thought. Others set out to implement a campaign of military thoroughness, with
branched contingency trees and fallback positions, all to "catch" a
desirable man. The word "desirable" was the giveaway, she thought.
The poor jerk wasn't actually desired, only "desirable"--a plausible
object of desire in the opinion of those others on whose account this whole
sorry charade was performed. Most women, she thought, were somewhere in the
middle, seeking to reconcile their passions with their perceived long-term
advantage. Perhaps there were occasional communications between love and
self-interest that escaped the notice of the conscious mind. But the whole idea
of calculated entrapment made her shiver. In this matter, she decided, she was
a devotee of the spontaneous. That was when she met Jesse.
*
* *
Her date had taken her to a cellar bar
off Kenmore Square. Jesse was singing rhythm and blues and playing lead guitar.
The way he sang and the way he moved made clear what she had been missing. The
next night she returned alone. She seated herself at the nearest table and
locked eyes with him through both his sets. Two months later they were living
together.
It was only when his booking took him to
Hartford or Bangor that she got any work done at all. She would spend her days
with the other students: boys with the final generation of slide rules hanging
like trophies from their belts; boys with plastic pencil holders in their
breast pockets; precise, stilted boys with nervous laughs; serious boys
spending all their waking moments becoming scientists. Absorbed in training
themselves to plumb the depths of nature, they were almost helpless in ordinary
human affairs, where, for all their knowledge, they seemed pathetic and
shallow. Perhaps the dedicated pursuit of science was so consuming, so
competitive, that no time was left to become a well-rounded human being. Or
perhaps their social disabilities had led them to fields where the want would
not be noticed. Except for science itself, she did not find them good company.
At night there was Jesse, leaping and
wailing, a kind of force of nature that had taken over her life. In the year
they spent together, she could not recall a single night when he proposed they
go to sleep. He knew nothing of physics or mathematics, buy he was wide awake
inside the universe, and for a time so was she.
She dreamed or reconciling her two
worlds. She had fantasies of musicians and physicists in harmonious social
concert. But the evenings she organized were awkward and ended early.
One day he told her he wanted a baby. He
would be serious, he'd settle down, he'd get a regular job. He might even
consider marriage.
"A baby?" she asked him.
"But I'd have to leave school. I have years more before I'm done. If I had
a baby, I might never go back to school."
"Yeah," he said, "but we'd
have a baby. You wouldn't have school, but you'd have something else."
"Jesse, I need school," she
told him.
He shrugged, and she could feel their
lives together slip off his shoulders and away. It lasted another few months,
but it all had really been settled in that brief exchange. They kissed each
other goodbye and he went off to California. She never heard his voice again.
*
* *
In the late 1960s, the Soviet Union
succeeded in landing space vehicles on the surface of Venus. They were the
first spacecraft of the human species to set down in working order on another
planet. Over a decade earlier, American radio astronomers, confined to Earth,
had discovered that Venus was an intense source of radio emission. The most
popular explanation had been that the massive atmosphere of Venus trapped the
heat through a planetary greenhouse effect. In this view, the surface of the
planet was stifling hot, much too hot for crystal cities and wondering
Venusians. Ellie longed for some other explanation, and tried unsuccessfully to
imagine ways in which the radio emission could come from high above a clement
Venus surface. Some astronomers at Harvard and MIT claimed that none of the
alternatives to a broiling Venus could explain the radio data. The idea of so
massive a greenhouse effect seemed to her unlikely and somehow distasteful, a
planet that had let itself go. But when the Venera spacecraft landed and in
effect stuck out a thermometer, the temperature measured was high enough to
melt tin or lead. She imagined the crystal cities liquifying (although Venus
wasn't quite that hot), the surface awash in silicate tears. She was a
romantic. She had known it for years.
But at the same time she had to admire
how powerful radio astronomy was. The astronomers had sat home, pointed their
radio telescopes at Venus, and measured the surface temperature just about as
accurately as the Venera probes did thirteen years later. She had been
fascinated with electricity and electronics as long as she could remember. But
this was the first time she had been deeply impressed by radio astronomy. You
stay safely on your own planet and point your telescope with its associated
electronics. Information about other worlds then comes fluttering down through
the feeds. She marveled at the notion.
Ellie began to visit the university's
modest radio telescope in nearby Harvard, Massachusetts, eventually getting an
invitation to help with the observations and the data analysis. She was
accepted as a paid summer assistant at the National Radio Astronomy Observatory
in Green Bank, West Virginia, and upon arrival, gazed in some rapture at Grote
Reber's original radio telescope, constructed in his backyard in Wheaton,
Illinois, in 1938, and now serving as a reminder of what a dedicated amateur
can accomplish. Reber had been able to detect the radio emission from the
center of the Galaxy when no one nearby happened to be starting up the car and
the diathermy machine down the street was not in operation. The Galactic Center
was much more powerful, but the diathermy machine was a lot closer.
The atmosphere of patient inquiry and the
occasional rewards of modest discovery were agreeable to her. They were trying
to measure how the number of distant extragalactic radio sources increased as
they looked deeper into space. She began to think about better ways of
detecting faint radio signals. In due course, she graduated cum laude from
Harvard and went on for graduate work in radio astronomy at the other end of the
country, at the California Institute of Technology.
*
* *
For a year, she apprenticed herself to
David Drumlin. He had a worldwide reputation for brilliance and for not
suffering fools gladly, but was at heart one of those men you can find at the
top of every profession who are in a state of unrelieved anxiety that someone,
somewhere, might prove smarter than they. Drumlin taught Ellie some of the real
heart of the subject, especially its theoretical underpinnings. Although he was
inexplicably rumored to be attractive to women, Ellie found him frequently
combative and unremittingly self- involved. She was too romantic, he would say.
The universe is strictly ordered according to its own rules. The idea is to
think as the universe does, not to foist our romantic predispositions (and
girlish longings, he once said) on the universe. Everything not forbidden by
the laws of nature, he assured her--quoting a colleague down the hall--is
mandatory. But, he went on, almost everything is forbidden. She gazed at him as
he lectured, trying to divine this odd combination of personality traits. She
saw a man in excellent physical condition: prematurely gray hair, sardonic
smile, half-moon reading glasses perched toward the end of his nose, bow tie,
square jaw, and remnants of a Montana twang.
His idea of a good time was to invite the
graduate students and junior faculty over for dinner (unlike her stepfather,
who enjoyed a student entourage but considered having them to dinner an
extravagance). Drumlin would exhibit an extreme intellectual territoriality,
steering the conversation to topics in which he was the acknowledged expert and
then swiftly dispatching contrary opinions. After dinner he would often subject
them to a slide show of Dr. D. scuba diving in Cozumel or Tobago or the Great
Barrier Reef. He was often smiling into the camera and waving, even in the
underwater images. Sometimes there would be a submarine vista of his scientific
colleague, Dr. Helga Bork. (Drumlin's wife would always object to these
particular slides, on the reasonable grounds that most of the audience had
already seen them at previous dinner parties. In truth, the audience had
already seen all the slides. Drumlin would respond by extolling the virtues of
the athletic Dr. Bork, and his wife's humiliation increased.) Many of the
students gamely went along, seeking some novelty they had previously missed
among the brain corals and the spiny sea urchins. A few would writhe in
embarrassment or become absorbed in the avocado dip.
A stimulating afternoon for his graduate
students would be for them to be invited over, in twos or threes, to drive him
to the edge of a favorite cliff near Pacific Palisades. Casually attached to
his hang glider, he would leap off the precipice toward the tranquil ocean a
few hundred feet below. Their job was to drive down the coast road and retrieve
him. He would swoop down upon them, beaming exultantly. Others were invited to
join him, but few accepted. He had, and delighted in, the competitive advantage.
It was quite a performance. Others looked on graduate students as resources for
the future, as their intellectual torchbearers to the next generation. But
Drumlin, she felt, had quite a different view. For him, graduate students were
gunslingers. There was no telling which of them might at any moment challenge
him for the reigning title of "Fastest Gun in the West." They were to
be kept in their places. He never made a pass at her, but sooner or later, she
was certain, he was bound to try.
In her second year at Cal Tech, Peter
Valerian returned to campus from his sabbatical year abroad. He was a gentle
and unprepossessing man. No one, least of all he himself, considered him
especially brilliant. Yet he had a steady record of significant accomplishment
in radio astronomy because, he explained when pressed, he "kept at
it." There was one slightly disreputable aspect of his scientific career:
He was fascinated by the possibility of extraterrestrial intelligence. Each
faculty member, it seemed, was allowed one foible: Drumlin had hang gliding and
Valerian had life on other worlds. Others had topless bars, or carnivorous
plants, or something called transcendental meditation. Valerian had thought
about extraterrestrial intelligence, abbreviated ETI, longer and harder--and in
many cases more carefully--than anyone else. As she grew to know him better, it
seemed that ETI provided a fascination, a romance, that was in dramatic
contrast with the humdrum business of his personal life. This thinking about
extraterrestrial intelligence was not work for him, but play. His imagination
soared.
Ellie loved to listen to him. It was like
entering Wonderland or the Emerald City. Actually, it was better, because at
the end of all his ruminations there was the thought that maybe this could
really be true, could really happen. Someday, she mused, there might in fact
and not just in fantasy be a message received by one of the great radio
telescopes. But in a way it was worse, because Valerian, like Drumlin on other
subjects, repeatedly stressed that speculation must be confronted with sober
physical reality. It was a kind of sieve that separated the rare useful
speculation from torrents of nonsense. The extraterrestrials and their
technology had to conform strictly to the laws of nature, a fact that severely
crimped many a charming prospect. But what emerged from this sieve, and
survived the most skeptical physical and astronomical analysis, might even be
true. You couldn't be sure, of course. There were bound to be possibilities
that you had missed, that people cleverer than you would one day figure out.
Valerian would emphasize how we are
trapped by our time and our culture and our biology, how limited we are, by
definition, in imagining fundamentally different creatures or civilizations.
And separately evolved on very different creatures or civilizations. And
separately evolved on very different worlds, they would have to be very
different from us. It was possible that beings much more advanced than we might
have unimaginable technologies--this was, in fact, almost guaranteed--and new
laws of physics. It was hopelessly narrow-minded, he would say as they walked
past a succession of stucco arches as in a De Chirico painting, to imagine that
all significant laws of physics had been discovered at the moment our
generation began contemplating the problem. There would be a
twenty-first-century physics and twenty- second-century physics, and even a
Fourth-Millennium physics. We might be laughably far off in guessing how a very
different technical civilization would communicate.
But then, he always reassured himself,
the extraterrestrials would have to know how backward we were. If we were any
more advanced, they would know about us already. Here we were, just beginning to
stand up on our two feet, discovering fire last Wednesday, and only yesterday
stumbling on Newtonian dynamics, Maxwell's equations, radio telescopes, and
hints of Superunification of the laws of physics. Valerian was sure they
wouldn't make it hard for us. They would try to make it easy, because if they
wanted to communicate with dummies they would have to have a fighting chance if
a message ever came. His lack of brilliance was in fact his strength. He knew,
he was confident, what dummies knew.
As a topic for her doctoral thesis, Ellie
chose, with the concurrence of the faculty, the development of an improvement
in the sensitive receivers employed on radio telescopes. It made use of her
talents in electronics, freed her from the mainly theoretical Drumlin, and
permitted her to continue her discussions with Valerian--but without taking the
professionally dangerous step of working with him on extraterrestrial
intelligence. It was too speculative a subject for a doctoral dissertation. Her
stepfather had taken to denouncing her various interests as unrealistically
ambitious or occasionally as deadeningly trivial. When he heard of her thesis
topic through the grapevine (by now, she was not talking to him at all), he
dismissed it as pedestrian.
She was working on the ruby maser. A ruby
is made mainly of alumina, which is almost perfectly transparent. The red color
derives from a small chromium impurity distributed through the alumina crystal.
When a strong magnetic field is impressed on the ruby, the chromium atoms
increase their energy or, as physicists like to say, are raised to an excited
state. She loved the image of all the little chromium atoms called to feverish
activity in each amplifier, frenzied in a good practical cause--amplifying a
weak radio signal. The stronger the magnetic field, the more excited the
chromium atoms became. Thus the maser could be turned so that it was
particularly sensitive to a selected radio frequency. She found a way to make
rubies with lanthanide impurities in addition to the chromium atoms, so a maser
could be tuned to a narrower frequency range and could detect a much weaker
signal than previous masers. Her detector had to be immersed in liquid helium.
She then installed her new instrument on one of Cal Tech's radio telescopes in
Owens Valley and detected, at entirely new frequencies, what astronomers call
the three-degree black-body background radiation--the remnant in the radio
spectrum of the immense explosion that began this universe, the Big Bang.
"Let's see if I've got this
right," she would say to herself. "I've taken an inert gas that's in
the air, made it into a liquid, put some impurities into a ruby, attached a
magnet, and detected the fires of creation."
She would then shake her head in amazement.
To anyone ignorant of the underlying physics, it might seem the most arrogant
and pretentious necromancy. How would you explain this to the best scientists
of thousand years ago, who knew about air and rubies and lodestones, but not
about liquid helium, stimulated emission, and superconducting flux pumps? In
fact, she reminded herself, they did not have even the foggiest notion about
the radio spectrum. Or even the idea of a spectrum--except vaguely, from
contemplating the rainbow. They did not know that light was waves. How could we
hope to understand the science of a civilization a thousand years ahead of us?
It was necessary to make rubies in large
batches, because only a few would have the requisite properties. None were
quite of gemstone quality, and most were tiny. But she took to wearing a few of
the larger remnants. They matched her dark coloring well. Even if it was
carefully cut, you could recognize some anomaly in the stone set in a ring or a
brooch: the odd way, for example, that it caught the light at certain angles
from an abrupt internal reflection, or a peach-colored blemish inside the ruby
red. She would explain to nonscientist friends that she liked rubies but
couldn't afford them. It was a little like the scientist who first discovered
the biochemical pathway of green plant photosynthesis, and who forever after
wore pine needles or a sprig of parsley in his lapel. Colleagues, their respect
for her growing, considered it a minor idiosyncrasy.
*
* *
The great radio telescopes of the world
are constructed in remote locations for the same reason Paul Gauguin sailed to
Tahiti: For them to work well, they must be far from civilization. As civilian
and military radio traffic has increased, radio telescopes had to hide--sequestered
in an obscure valley in Puerto Rico, say, or exiled to a vast scrub desert in
New Mexico or Kazakhstan. As radio interference continues to grow, it makes
increasing sense to build the telescopes off the Earth altogether. The
scientists who work at these isolated observatories tend to be dogged and
determined. Spouses abandon them, children leave home at the first opportunity,
but the astronomers stick it out. Rarely do they think of themselves as
dreamers. The permanent scientific staff in remote observatories tend to be the
practical ones, the experimentalists, the experts who know a great deal about
antenna design and data analysis, and much less about quasars or pulsars.
Generally speaking, they had not longed for the stars in childhood; they had been
too busy repairing the carburetor in the family car.
After receiving her doctorate, Ellie
accepted an appointment as research associate at the Arecibo Observatory, a
great bowl 305 meters across, fixed to the floor of a karst valley in the
foothills of northwestern Puerto Rico. With the largest radio telescope on the
planet, she was eager to employ her maser detector to look at as many different
astronomical objects as she could--nearby planets and stars, the center of the
Galaxy, pulsars and quasars. As a full-time member of the Observatory staff,
she would be assigned a significant amount of observing time. Access to the
great radio telescopes is keenly competitive, there being many more worthwhile
research projects than can possibly be accommodated. So reserved telescope time
for the resident staff is perquisite beyond price. For many of the astronomers,
it was the only reason they would consent to live in such godforsaken places.
She also hoped to examine a few nearby
stars for possible signals of intelligent origin. With her detector system it
would be possible to here the radio leakage from a planet like Earth even if it
was a few light-years away. And an advanced society, intending to communicate
with us, would doubtless be capable of much greater power transmissions than we
were. If Arecibo, used as a radar telescope, was capable of transmitting one
megawatt of power to a specific locale in space, then a civilization only a
little bit in advance of ours might, she thought, be capable of transmitting a
hundred megawatts or more. If they were intentionally transmitting to the Earth
with a telescope as large as Arecibo but with a hundred-megawatt transmitter,
Arecibo should be able to detect them virtually anywhere in the Milky Way
Galaxy. When she thought carefully about it, she was surprised that, in the
search for extraterrestrial intelligence, what could be done was so far ahead
of what had been done. The resources that had been devoted to this question
were trifling, she thought. She was hard pressed to name a more important
scientific problem.
The Arecibo facility was known to the
locals as "El Radar." Its function was generally obscure, but it
provided more than a hundred badly needed jobs. The indigenous young women were
sequestered from the male astronomers, some of whom could be viewed at almost
any time of day or night, full of nervous energy, jogging along the
circumferential track that surrounded the dish. As a result, the attentions
directed at Ellie upon her arrival, while not entirely unwelcome, soon became a
distraction from her research.
The physical beauty of the place was
considerable. At twilight, she would look out the control windows and see storm
clouds hovering over the other lip of the valley, just beyond one of the three
immense pylons from which the feed horns and her newly installed maser system
were suspended. At the top of each pylon, a red light would flash to warn off
any airplanes that had improbably strayed upon this remote vista. At 4 A.M.,
she would step outside for a breath of air and puzzle to understand a massed
chorus of thousands of local land frogs, called "coquis" in
imitations of their plaintive cry.
Some astronomers lived near the
Observatory, but the isolation, compounded by ignorance of Spanish and
inexperience with any other culture, tended to drive them and their wives
toward loneliness and anomie. Some had decided to live at Ramey Air Force Base,
which boasted the only English-language school in the vicinity. But the
ninety-minute drive also heightened their sense of isolation. Repeated threats
by Puerto Rican separatists, convinced erroneously that the Observatory played
some significant military function, increased the sense of subdued hysteria, of
circumstances barely under control.
Many months later, Valerian came to
visit. Nominally he was there to give a lecture, but she knew that part of his
purpose was to check up on how she was doing and provide some semblance of
psychological support. Her research had gone very well. She had discovered what
seemed to be a new interstellar molecular cloud complex, and had obtained some
very fine high time-resolution data on the pulsar at the center of the Crab
Nebula. She had even completed the most sensitive search yet performed for signals
from a few dozen nearby stars, but with no positive results. There had been one
or two suspicious regularities. She observed the stars in question again and
could find nothing out of the ordinary. Look at enough stars, and sooner or
later terrestrial interference or the concatenation of random noise will
produce a pattern that for a moment makes your heart palpitate. You calm down
and check it out. If it doesn't repeat itself, you consider it spurious. This
discipline was essential if she was to preserve some emotional equilibrium in
the face of what she was seeking. She was determined to be as tough-minded as
possible, without abandoning the sense of wonder that was driving her in the
first place.
From her scant supply in the community
refrigerator, she had made a rudimentary picnic lunch, and Valerian sat with
her along the very periphery of the bowl-shaped dish. Workmen repairing or
replacing the panels could be seen in the distance, walking on special
snowshoes so they did not tear the aluminum sheets and plunge through the
ground below. Valerian was delighted with her progress. They exchanged bits of
gossip and current scientific tidbits. The conversation turned to SETI, as the
search for extraterrestrial intelligence was beginning to be called.
"Have you ever though about doing it
full time, Ellie?" he asked.
"I haven't thought about it much.
But it's not really possible, is it? There's no major facility devoted to SETI
full-time anywhere in the world, as far as I know."
"No, but there might be. There's a
chance that dozens of additional dishes might be added to the Very Large Array,
and make it into a dedicated SETI observatory. They'd do some of the usual kind
of radio astronomy also, of course. It would be a superb interferometer. It's
only a possibility, it's expensive, it needs real political will, and it's
years away at best. Just something to think about."
"Peter, I've just examined some
forty-odd nearby stars of roughly solar spectral type. I've looked in the twenty-one
centimeter hydrogen line, which everybody says is the obvious beacon
frequency--because hydrogen is the most abundant atom in the universe, and so
on. And I've done it with the highest sensitivity ever tried. There's not a
hint of a signal. Maybe there's no one out there. Maybe the whole business is a
waste of time."
"Like life on Venus? That's just
disillusionment talking. Venus is a hellhole of a world; it's just one planet.
But there's hundreds of billions of stars in the Galaxy. You've looked at only
a handful. Wouldn't you say it's a little premature to give up? You've done
on-billionth of the problem. Probably much less than that, if you consider
other frequencies."
"I know, I know. But don't you have
the sense that if they're anywhere, they're everywhere? If really advanced guys
live a thousand light-years away, shouldn't they have an outpost in our
backyard? You could do the SETI thing forever, you know, and never convince
yourself that you'd completed the search."
"Oh, you're beginning to sound like
Dave Drumlin. If we can't find them in his lifetime, he's not interested. We're
just beginning SETI. You know how many possibilities there are. This is the
time to leave every option open. This is the time to be optimistic. If we lived
in any previous time in human history, we could wonder about this all our
lives, and we couldn't do a thing to find the answer. But this time is unique.
This is the first time when anybody's been able to look for extraterrestrial
intelligence. You've made the detector to look for civilizations on the planets
of millions of other stars. Nobody's guaranteeing success. But can you think of
a more important question? Imagine them out there sending us signals, and
nobody on Earth is listening. That would be a joke, a travesty. Wouldn't you be
ashamed of your civilization if we were able to listen and didn't have the
gumption to do it?"
*
* *
Two hundred fifty-six images of the left
world swam by on the left. Two hundred fifty-six images of the right world
glided by on the right. He integrated all 512 images into a wraparound view of
his surroundings. He was deep in a forest of great waving blades, some green,
some etiolated, almost all larger than me. But he had no difficulty clambering
up and over, occasionally balancing precariously on a bent blade, falling to
the gentle cushion of horizontal blades below, and then continuing unerringly
on his journey. He could tell he was centered on the trail. It was
tantalizingly fresh. He would think of nothing, if that's where the trail led,
of scaling an obstacle a hundred or a thousand times as tall as he was. He
needed no pylons or ropes; he was already equipped. The ground immediately
before him was redolent with a marker odor left recently, it must be, by
another scout of his clan. It would lead to food; it almost always did. The
food would spontaneously appear. Scouts would find it and mark the trail. He
and his fellows would bring it back. Sometimes the food was a creature rather
like himself; other times it was only an amorphous or crystalline lump.
Occasionally it was so large that many of his clan would be required, working
together, heaving and shoving it over the folded blades, to carry it home. He
smacked his mandibles in anticipation.
*
* *
"What worries me the most," she
continued, "is the opposite, the possibility that they're not trying. They
could communicate with us, all right, but they're not doing it because they
don't see any point to it. It's like..."--she glanced down at the edge of
the tablecloth they had spread over the grass--"like the ants. They occupy
the same landscape that we do. They have plenty to do, things to occupy
themselves. On some level they're very well aware of their environment. But we
don't try to communicate with them. So I don't think they have the foggiest
notion that we exist."
A large ant, more enterprising than his
fellows, had ventured onto the tablecloth and was briskly marching along the
diagonal of one of the red and white squares. Suppressing a small twinge of
revulsion, she gingerly flicked it back onto the grass--where it belonged.
CHAPTER 3
White
Noise
Heard
melodies are sweet, but those unheard Are sweeter.
-JOHN KEATS
"Ode
on a Grecian Urn" (1820)
The cruelest lies are often told in
silence.
-ROBERT LOUIS STEVENSON
Virginibus
Puerisque (1881)
The pulses
had been journeying for years through the great dark between the stars.
Occasionally, they would intercept an irregular cloud of gas and dust, and a
little of the energy would be absorbed or scattered. The remainder continued in
the original direction. Ahead of them was a faint yellow glow, slowly
increasing in brightness among the other unvarying lights. Now, although to
human eyes it would still be a point, it was by far the brightest object in the
black sky. The pulses were encountering a horde of giant snowballs.
Entering
the Argus administration building was a willowy woman in her late thirties. Her
eyes, large and set far apart, served to soften the angular bone structure of
her face. Her long dark hair was loosely gathered by a tortoise barrette at the
nape of her neck. Casually dressed in a knit T-shirt and khaki skirt, she
strolled along a hallway on the first floor and entered a door marked "E.
Arroway, Director." As she removed her thumb from the fingerprint
deadlock, and observer might have noticed a ring on her right hand with an
oddly milky red stone unprofessionally set in it. Turning on a desk lamp, she
rummaged through a drawer, finally producing a pair of earphones. Briefly
illuminated on the wall beside her desk was a quotation from the Parables of
Franz Kafka:
Now the
Sirens have a still more fatal weapon
than their
song, namely their silence...
Someone
might possibly have escaped from
their
singing;
but from
their silence, certainly never.
Extinguishing the light with a wave of
her hand, she made for the door in the semidarkness.
In the control room she quickly reassured
herself that all was in order. Through the window she could see a few of the
131 radio telescopes that stretched for tens of kilometers across the New
Mexico scrub desert like some strange species of mechanical flower straining
toward the sky. It was early afternoon and she had been up late the night
before. Radio astronomy can be performed during daylight, because the air does
not scatter radio waves from the Sun as it does ordinary visible light. To a
radio telescope pointing anywhere but very close to the Sun, the sky is pitch
black. Except for the radio sources.
Beyond the Earth's atmosphere, on the
other side of the sky, is a universe teeming with radio emission. By studying
radio waves you can learn about planets and stars and galaxies, about the
composition of great clouds of organic molecules that drift between the stars,
about the origin and evolution and fate of the universe. But all these radio
emissions are natural--caused by physical processes, electrons spiraling in the
galactic magnetic field, or interstellar molecules colliding with one another,
or the remote echoes of the Big Bang red-shifted from gamma rays at the origin
of the universe to the tame and chill radio waves that fill all of space in our
epoch.
In the scant few decades in which humans
have pursued radio astronomy, there has never been a real signal from the
depths of space, something manufactured, something artificial, something
contrived by an alien mind. There have been false alarms. The regular time
variation of the radio emission from quasars and, especially, pulsars had at
first been thought, tentatively, tremulously, to be a kind of announcement
signal from someone else, or perhaps a radio navigation beacon for exotic ship
that plied the spaces between the stars. But they had turned out to be
something else--equally exotic, perhaps, as a signal from beings in the night
sky. Quasars seemed to be stupendous sources of energy, perhaps connected with
massive black holes at the centers of galaxies, many of them observed more than
halfway back in time to the origin of the universe. Pulsars are rapidly
spinning atomic nuclei the size of a city. And there had been other rich and
mysterious messages that had turned out to be intelligent after a fashion but
not very extraterrestrial. The skies were now peppered with secret military
radar systems and radio communication satellites that were beyond the entreaty
of a few civilian radio astronomers. Sometimes they were real outlaws, ignoring
international telecommunications agreements. There were no recourses and no
penalties. Occasionally, all nations denied responsibility. But there had never
been a clear-cut alien signal.
And yet the origin of life now seemed to
be so easy--and there were so many planetary systems, so many worlds and so
many billions of years available for biological evolution--that it was hard to
believe the Galaxy was not teeming with life and intelligence. Project Argus
was the largest facility in the world dedicated to the radio search for
extraterrestrial intelligence. Radio waves traveled with the speed of light,
faster than which nothing, it seemed, could go. They were easy to generate and
easy to detect. Even very backward technological civilizations, like that on
Earth, would stumble on radio early in their exploration of the physical world.
Even with the rudimentary radio technology available--now, only a few decades
after the invention of the radio telescope--it was nearly possible to
communicate with an identical civilization at the center of the Galaxy. But
there were so many places in the sky to examine, and so many frequencies on
which an alien civilization might be broadcasting, that it required a
systematic and patent observing program. Argus had been in full operation for
more than four years. There had been glitches, bogeys, intimations, false
alarms. But no message.
*
* *
"Afternoon, Dr. Arroway."
The lone engineer smiled pleasantly at
her, and she nodded back. All 131 telescopes of Project Argus were controlled
by computers. The system slowly scanned the sky on its own, checking that there
were no mechanical or electronic breakdowns, comparing the data from different
elements of the array of telescopes. She glanced at the billion-channel
analyzer, a bank of electronics covering a whole wall, and at the visual
display of the spectrometer.
There was not really very much for the
astronomers and technicians to do as the telescope array over the years slowly
scanned the sky. If it detected something of interest, it would automatically
sound an alarm, altering project scientists in their beds at night if need be.
Then Arroway would go into high gear to determine if this one was an
instrumental failure or some American or Soviet space bogey. Together with the
engineering staff, she would devise ways of improving the sensitivity of the
equipment. Was there any pattern, any regularity in the emission? She would
delegate some of the radio telescopes to examine exotic astronomical objects
that had been recently detected by other observatories. She would help staff
members and visitors with projects unrelated to SETI. She would fly to
Washington to keep interest high at the funding agency, the National Science
Foundation. She would give a few public talks on Project Argus--at the Rotary
Club in Socorro or the University of New Mexico in Albuquerque--and
occasionally greet an enterprising reporter who would arrive, sometimes
unannounced, in remotest New Mexico.
Ellie had to take care that the tedium
did not engulf her. Her co-workers were pleasant enough, but--even apart from
the impropriety of a close personal relationship with a nominal
subordinate--she did not find herself tempted into any real intimacies. There
had been a few brief, torrid but fundamentally casual relationships with local
men unconnected with the Argus project. In this area of her life, too, a kind
of ennui, a lassitude, had settled over her.
She sat down before one of the consoles
and plugged in the earphones. It was futile, she knew, a conceit, to think that
she, listening on one or two channels, would detect a pattern when the vast
computer system monitoring a billion channels had not. But it gave her a modest
illusion of utility. She leaned back, eyes half closed, an almost dreamy
expression enveloping the contours of her face. She's really quite lovely, the
technician permitted himself to think.
She heard, as always, a kind of static, a
continuous echoing random noise. Once, when listening to a part of the sky that
included the star AC + 79 3888 in Cassiopeia, she felt she heard a kind of
singing, fading tantalizingly in and out, lying just beyond her ability to
convince herself that there was something really there. This was the star
toward which the Voyager 1 spacecraft, now in the vicinity of the obit of
Neptune, would ultimately travel. The spacecraft carried a golden phonograph
record on which were impressed greetings, pictures, and songs from Earth. Could
they be sending us their music at the speed of light, while we are sending ours
to them only one ten-thousandth as fast? At other times, like now, when the
static was clearly patternless, she would remind herself of Shannon's famous
dictum in information theory, that the most efficiently coded message was
indistinguishable from noise, unless you had the key to the encoding
beforehand. Rapidly she pressed a few keys on the console before her and played
two of the narrow-band frequencies against each other, on in each earphone.
Nothing. She listened to the two planes of polarization of the radio waves, and
then to the contrast between linear and circular polarization. There were a
billion channels to choose from. You could spend your life trying to outguess
the computer, listening with pathetically limited human ears and brains,
seeking a pattern.
Humans are good, she knew, at discerning
subtle patterns that are really there, but equally so at imagining them when
they are altogether absent. There would be some sequence of pulses, some
configuration of the static, that would for an instant give a syncopated beat
or a brief melody. She switched to a pair of radio telescopes that were
listening to a known galactic radio source. She heard a glissando down the
radio frequencies, a "whistler" due to the scattering of radio waves
by electrons in the tenuous interstellar gas between the radio source and the
Earth. The more pronounced the glissando, the more electrons were in the way,
and the further the source was from the Earth. She had done this so often that
she was able, just from hearing a radio whistler for the first time, to make an
accurate judgment of its distance. This one, she estimated, was about a
thousand light-years away--far beyond the local neighborhood of stars, but
still well within the great Milky Way Galaxy.
Ellie returned to the sky-survey mode of
Project Argus. Again no pattern. It was like a musician listening to the rumble
of a distant thunderstorm. The occasional small patches of pattern would pursue
her and intrude themselves into her memory with such insistence that sometimes
she was forced to go back to the tapes of a particular observing run to see if
there was something her mind had caught and the computers had missed.
All her life, dreams had been her
friends. Her dreams were unusually detailed, well-structured, colorful. She was
able to peer closely at her father's face, say, or the back of an old radio
set, and the dream would oblige with full visual details. She had always been
able to recall her dreams, down to the fine details--except for the times when she
had been under extreme pressure, as before her Ph.D. oral exam, or when she and
Jesse were breaking up. But now she was having difficulty recalling the images
in her dreams. And, disconcertingly, she began to dream sounds--as people do
who are blind from birth. In the early morning hours her unconscious mind would
generate some theme or ditty she had never heard before. She would wake up,
give an audible command to the light on her night table, pick up the pen she
had put there for the purpose, draw a staff, and commit the music to paper.
Sometimes after a long day she would play it on her recorder and wonder if she
had heard it in Ophiuchus or Capricorn. She was, she would admit to herself
ruefully, being haunted by the electrons and the moving holes that inhabit
receivers and amplifiers, and by the charged particles and magnetic fields of
the cold thin gas between the flickering distant stars.
It was a repeated single note,
high-pitched and raucous around the edges. It took her a moment to recognize
it. Then she was sure she hadn't heard it In thirty-five years. It was the
metal pulley on the clothesline that would complain each time her mother gave a
tug and put out another freshly washed smock to dry in the Sun. As a little
girl, she had loved the army of marching clothespins; and when no one was
about, would bury her face in the newly dried sheets. The smell, at once sweet
and pungent, enchanted her. Could that be a whiff of it now? She could remember
herself laughing, toddling away from the sheets, when her mother in one
graceful motion swooped her up--to the sky it seemed--and carried her away in
the crook of her arm, as if she herself were just a little bundle of clothes to
be neatly arranged in the chest of drawers in her parents' bedroom.
* * *
"Dr. Arroway? Dr. Arroway?" The
technician looked down on her fluttering eyelids and shallow breathing. She
blinked twice, removed the headphones, and gave him a small apologetic smile.
Sometimes her colleagues had to talk very loudly if they wished to be heard
above the amplified cosmic radio noise. She would in turn compensate for the
volume of the noise--she was loath to remove the earphones for brief
conversations--by shouting back. When she was sufficiently preoccupied, a
casual or even convivial exchange of pleasantries would seem to an
inexperienced observer like a fragment of a fierce and unprovoked argument
unexpectedly generated amidst the quiet of the vast radio facility. But now she
only said, "Sorry. I must have drifted off."
"It's Dr. Drumlin on the phone. He's in Jack's office and says he
has an appointment with you."
"Holy Toledo, I forgot."
As the years had passed, Drumlin's
brilliance had remained undiminished, but there were a number of additional
personal idiosyncrasies that had not been in evidence when she had served
briefly as his graduate student at Cal Tech. For example, he had the
disconcerting habit now of checking, when he though himself unobserved, whether
his fly was open. He had over the years become increasingly convinced that
extraterrestrials did not exist, or at least that they were too rare, too
distant to be detected. He had come to Argus to give the weekly scientific
colloquium. But, she found, he had come for another purpose as well. He had
written a letter to the National Science Foundation urging that Argus terminate
its search for extraterrestrial intelligence and devote itself full-time to
more conventional radio astronomy. He produced it from an inside pocket and
insisted that she read it.
"But we've only been at it four and
a half years. We've looked at less than a third of the northern sky. This is
the first survey that can do the entire radio noise minimum at optimum
bandpasses. Why would you want to stop now?"
"No, Ellie, this is endless. After a
dozen years you'll find no sign of anything. You'll argue that another Argus
facility has to be built at a cost of hundreds of millions of dollars in
Australia or Argentina to observe the southern sky. And when that fails, you'll
talk about building some paraboloid with a free-flying feed in Earth orbit so
you can get millimeter waves. You'll always be able to think of some kind of
observation that hasn't been done. You'll always invent some explanation about
why the extraterrestrials like to broadcast where we haven't looked."
"Oh, Dave, we've been through this a
hundred times. If we fail, we learn something of the rarity of intelligent
life--or at least intelligent life that thinks like we do and wants to
communicate with backward civilizations like us. And if we succeed, we hit the
cosmic jackpot. There's no greater discovery you can imagine."
"There are first-rate projects that
aren't finding telescope time. There's work on quasar evolution, binary
pulsars, the chromospheres of nearby stars, even those crazy interstellar
proteins. These projects are waiting in line because this facility--by far the
best phased array in the world--is being used almost entirely for SETI."
"Seventy-five
percent for SETI, Dave, twenty-five percent for routine radio astronomy."
"Don't call it routine. We've got
the opportunity to look back to the time that the galaxies were being formed,
or maybe even earlier than that. We can examine the cores of giant molecular
clouds and the black holes at the centers of galaxies. There's a revolution in
astronomy about to happen, and you're standing in the way."
"Dave, try not to personalize this.
Argus would never have been built if there wasn't public support for SETI. The
idea for Argus isn't mine. You know they picked me as director when the last
forty dishes were still under construction. The NSF is entirely behind--"
"Not entirely, and not if I have
anything to say about it. This is grandstanding. This is pandering to UFO kooks
and comic strips and weak-minded adolescents."
By now Drumlin was fairly shouting, and
Ellie felt an irresistible temptation to tune him out. Because of the nature of
her work an her comparative eminence, she was constantly thrown into situations
where she was the only woman present, except for those serving coffee or making
a stenotypic transcript. Despite what seemed like a lifetime of effort on her
part, there was still a host of male scientists who only talked to each other,
insisted on interrupting her, and ignored, when they could, what she had to
say. Occasionally there were those like Drumlin who showed a positive
antipathy. But at least he was treating her as he did many men. He was
evenhanded in his outbursts, visiting them equally on scientists of both sexes.
There were a rare few of her male colleagues who did not exhibit awkward
personality changes in her presence. She ought to spend more time with them,
she thought. People like Kenneth der Heer, the molecular biologist from the
Salk Institute who had recently been appointed Presidential Science Adviser.
And Peter Valerian, of course.
Drumlin's impatience with Argus, she
knew, was shared by many astronomers. After the first two years a kind of
melancholy had pervaded the facility. There were passionate debates in the
commissary or during the long and undemanding watches about the intentions of
the putative extraterrestrials. We could not guess how different from us they
might be. It was hard enough to guess the intentions of our elected
representatives in Washington. What would the intentions be of fundamentally
different kinds of beings on physically different worlds hundreds or thousands
of light-years away? Some believed that the signal would not be transmitted in
the radio spectrum at all but in the infrared or the visible or somewhere among
the gamma rays. Or perhaps the extraterrestrials were signaling avidly but with
a technology we would not invent for a thousand years.
Astronomers at other institutions were
making extraordinary discoveries among the stars and galaxies, picking out
those objects which, by whatever mechanism, generated intense radio waves.
Other radio astronomers published scientific papers, attended meetings, were
uplifted by a sense of progress and purpose. The Argus astronomers tended not
to publish and were usually ignored when the call went out for invited papers
at the annual meeting of the American Astronomical Society or the triennial
symposia and plenary sessions of the International Astronomical Union. So in
consultation with the National Science Foundation, the leadership at Argus had
reserved 25 percent of the observing time for projects unconnected with the
search for extraterrestrial intelligence. Some important discoveries had been made--on
the extragalactic objects that seemed, paradoxically, to be moving faster than
light; on the surface temperature of Neptune's big moon, Triton; and on the
dark matter in the outer reaches of nearby galaxies where no stars could be
seen. Morale began to improve. The Argus staff felt they were making a
contribution at the cutting edge of astronomical discovery. The time to
complete a full search of the sky had been lengthened, it was true. But now
their professional careers had some safety net. They might not succeed in
finding signs of other intelligent beings, but they might pluck other secrets
from the treasury of nature.
The search for extraterrestrial
intelligence--everywhere abbreviated SETI, except by those who talked somewhat
more optimistically about communication with extraterrestrial intelligence
(CETI)--was essentially an observing routine, the dull staple for which most of
the facility had been built. But a quarter of the time you could be assured of
using the most powerful array of radio telescopes on Earth for other projects.
You had only to get through the boring part. A small amount of time had also
been reserved for astronomers from other institutions. While the morale had
improved noticeably, there were many who agreed with Drumlin; they glanced
longingly at the technological miracle that Argus' 131 radio telescopes
represented and imagined using them for their own, doubtless meritorious,
programs. She was alternately conciliatory and argumentative with Dave, but
none of it did any good. He was not in an amiable mood.
Drumlin's colloquium was in part an
attempt to demonstrate that there were no extraterrestrials anywhere. If we had
accomplished so much in only a few thousand years of high technology, what must
a truly advanced species, he asked, be capable of? They should be able to move
stars about, to reconfigure galaxies. And yet, in all of astronomy there was no
sign of a phenomenon that could not be understood by natural processes, for
which an appeal to extraterrestrial intelligence had to be made. Why hadn't
Argus detected a radio signal by now? Did they imagine just one radio
transmitter in all of the sky? Did they realize how many billions of stars they
had examined already? The experiment was a worthy one, but now it was over.
They didn't have to examine the rest of the sky. The answer was in. Neither in
deepest space not near the Earth was there any sign of extraterrestrials. They
did not exist.
In the question period, one of the Argus
astronomers asked about the Zoo Hypothesis, the contention that the
extraterrestrials were out there all right but chose not to make their presence
known, in order to conceal from humans the fact that there were other
intelligent beings in the cosmos--in the same sense that a specialist in
primate behavior might wish to observe a troop of chimpanzees in the bush but
not interfere with their activities. In reply, Drumlin asked a different
question: Is it likely that with a million civilizations in the Galaxy--the
sort of number he said was "bandied about" at Argus--there would not
be a single poacher? How does it come about that every civilization in the
Galaxy abides by an ethic of noninterference? Is it probable that not one of
them would be poking around on the Earth?
"But on Earth," Ellie replied,
"poachers and game wardens have roughly equal levels of technology. If the
game warden is a major step ahead--with radar and helicopters, say--then the
poachers are out of business."
The remark was greeted warmly by some of
the Argus staff, but Drumlin only said, "You're reaching, Ellie. You're
reaching."
*
* *
To clear her head it was her practice to
go for long solo drives in her one extravagance, a carefully maintained 1958
Thunderbird with removable hardtop and little glass portholes flanking the rear
seat. Often she would leave the top at home and speed through the scrub desert
at night, with the windows down and her dark hair streaming behind her. Over
the years, it seemed, she had gotten to know every small impoverished town,
every butte and mesa, and every state highway patrolman in southwestern New
Mexico. After a night observing run, she would love to zoom past the Argus
guard station (that was before the cyclone fencing went up), rapidly changing
gears, and drive north. Around Santa Fe, the faintest glimmerings of dawn might
be seen above the Sangre de Cristo Mountains. (Why should a religion, she asked
herself, name its places after the blood and body, heart and pancreas of its
most revered figure? And why not the brain, among other prominent but
uncommemorated organs?)
This time she drove southeast, toward the
Sacramento Mountains. Could Dave be right? Could SETI and Argus be a kind of
collective delusion of a few insufficiently hard-nosed astronomers? Was it true
that no matter how many years went by without the receipt of a message, the
project would continue, always inventing a new strategy for the transmitting
civilization, continually devising novel and expensive instrumentation? What
would be a convincing sign of failure? When would she be willing to give up and
turn to something safer, something more guaranteed of results? The Nobeyama
Observatory in Japan had just announced the discovery of adenosine, a complex
organic molecule, a building block of DNA, sitting out there in a dense
molecular cloud. She could certainly bust herself usefully in looking for
life-related molecules in space, even if she gave up searching for
extraterrestrial intelligence.
On the high mountain road, she glanced at
the southern horizon and caught a glimpse of the constellation Centaurus. In
that pattern of stars the ancient Greeks had seen a chimerical creature, half
man, half horse, who had taught Zeus wisdom. But Ellie could never make out any
pattern remotely like centaur. It was Alpha Centauri, the brightest star in the
constellation, that she delighted in. It was the nearest star, only four and a
quarter light-years away. Actually, Alpha Centauri was a triple system, two
suns tightly orbiting one another, and a third, more remote, circling them
both. From Earth, the three stars blended together to form a solitary point of
light. On particularly clear nights, like this one, she could sometimes see it
hovering somewhere over Mexico. Sometimes, when the air had been laden with
desert grit after several consecutive days of sand storms, she would drive up
into the mountains to gain a little altitude and atmospheric transparency, get
out of the car, and stare at the nearest star system. Planets were possible
there, although very hard to detect. Some might be closely orbiting any one of
the triple suns. A more interesting orbit, with some fair celestial mechanical
stability, was a figure eight, which wrapped itself around the two inner suns.
What would it be like, she wondered, to live on a world with three suns in the
sky? Probably even hotter than New Mexico.
*
* *
The two-lane blacktop highway, Ellie
noticed with a pleasant little tremor, was lined with rabbits. She had seen
them before, especially when her drives had taken her as far as West Texas.
They were on all fours by the shoulders of the road; but as each would be
momentarily illuminated by the Thunderbird's new quartz headlights, it would
stand on its hind legs, its forelimbs hanging limply, transfixed. For miles
there was an honor guard of desert coneys saluting her, so it seemed, as she
roared through the night. They would look up, a thousand pink noses twitching,
two thousand bright eyes shining in the dark, as this apparition hurled toward
them.
Maybe it's a kind of religious
experience, she thought. They seemed to be mostly young rabbits. Maybe they had
never seen automobile headlights. To think of it, it was pretty amazing, the
two intense beams of light speeding along at 130 kilometers an hour. Despite
the thousands of rabbits lining the road, there never seemed to be even one in
the middle, near the lane marker, never a forlorn dead body, the ears stretched
out along the pavement. Why were they aligned along the pavement at all? Maybe it
had to do with the temperature of the asphalt, she thought. Or maybe they were
only foraging in the scrub vegetation nearby and curious about the oncoming
bright lights. But was it reasonable that none of them ever took a few short
hops to visit his cousins across the road? What did they imagine the highway
was? An alien presence in their midst, its function unfathomable, built by
creatures that most of them had never seen? She doubted that any of them
wondered about it all.
The whine of her tires on the highway was
a kind of white noise, and she found that involuntarily she was--here,
too--listening for a pattern. She had taken to listening closely to many
sources of white noise: the motor of the refrigerator starting up in the middle
of the night; the water running for her bath; the washing machine when she
would do her clothes in the little laundry room off her kitchen; the roar of
the ocean during a brief scuba-diving trip to the island of Cozumel off
Yucatan, which she had cut short because of her impatience to get back to work.
She would listen to these everyday sources of random noise and try to determine
whether there were fewer apparent patterns in them than in the interstellar
static.
She had been to New York City the
previous August for a meeting of URSI (the French abbreviation for the
International Scientific Radio Union). The subways were dangerous, she had been
told, but the white noise was irresistible. In the clacka-clacka of this
underground railway she had thought she heard a clue, and resolutely skipped
half a day of meetings--traveling from 34th Street to Coney Island, back to
midtown Manhattan, and then on a different line, out to remotest Queens. She
changed trains at a station in Jamaica, and then returned a little flushed and
breathless--it was, after all, a hot day in August, she told herself--to the
convention hotel. Sometimes, when the subway train was banking around a steep
curve, the interior bulbs would go out and she could see a regular succession
of lights, glowing in electric blue, speeding by as if she were in some
impossible hyper-relativistic interstellar spacecraft, hurtling through a
cluster of young blue supergiant stars. Then, as the train entered a
straight-away, the interior lights would come on again and she would become
aware once again of the acrid smell, the jostling of nearby straphangers, the
miniature television surveillance cameras (locked in protective cages and
subsequently spray-painted blind), the stylized multicolored map showing the
complete underground transportation system of the City of New York, and the
high-frequency screech of the brakes as they pulled into the stations.
This was a little eccentric, she knew.
But she had always had an active fantasy life. All right, so she was a little
compulsive about listening to noise. It did no harm that she could see. Nobody
seemed to notice much. Anyway, it was job-related. If she had been so minded,
she could probably have deducted the expense of her trip to Cozumel from her
income tax because of the sound of the breakers. Well, maybe she was becoming
obsessive.
She realized with a start that she had
arrived at the Rockefeller Center station. As she quickly stepped out through
an accumulation of daily newspapers abandoned on the floor of the subway car, a
headline of the News-Post had caught her eye: GUERRILLAS CAPTURE JOBURG RADIO.
If we like them, they're freedom fighters, she thought. If we don't like them,
they're terrorists. In the unlikely case we can't make up our minks, they're temporarily
only guerrillas. On an adjacent scrap of newspaper was a large photo of a
florid, confident man with the headline: HOW THE WORLD WILL END. EXCERPTS FROM
THE REV. BILLY JO RANKIN'S NEW BOOK. EXCLUSIVELY THIS WEEK IN THE NEWS-POST.
She had taken the headlines in at a glance and tried promptly to forget them.
Moving through the bustling crowds to the meeting hotel, she hoped she was in
time to hear Fujita's paper on homomorphic radio telescope design.
*
* *
Superposed on the whine of the tires was
a periodic thump at the joins of swathes of pavement, which had been resurfaced
by different New Mexico road crews in different epochs. What if an interstellar
message were being received by Project Argus, but very slowly--one bit of
information every hour, say, or every week, or every decade? What if there were
very old, very patient murmurs of some transmitting civilization, which had no
way of knowing that we get tired of pattern recognition after seconds or
minutes? Suppose they lived for tens of thousands of years. And taaaaalked
verrrry slooooowwwwly. Argus would never know. Could such long-lived creatures
exist? Would there have been enough time in the history of the universe for
creatures who reproduced very slowly to evolve to high intelligence? Wouldn't
the statistical breakdown of chemical bonds, the deterioration of their bodies
according to the Second Law of Thermodynamics, force them to reproduce about as
often as human beings do? And to have lifespans like ours? Or might they reside
on some old and frigid world, where even molecular collisions occur in extreme
slow motion, maybe only a frame a day. She idly imagined a radio transmitter of
recognizable and familiar design sitting on a cliff of methane ice, feebly
illuminated by a distant red dwarf sun, while far below waves of an ammonia
ocean beat relentlessly against the shore--incidentally generating a white
noise indistinguishable from that of the surf at Cozumel.
The opposite was possible as well: the
fast talkers, manic little creatures perhaps, moving with quick and jerky
motions, who transmitted a complete radio message--the equivalent of hundreds
of pages of English test--in a nanosecond. Of course, if you had a very narrow
bandpass to your receiver, so you were listening only to a tiny range of
frequencies, you were forced to accept the long time-constant. You would never
be able to detect a rapid modulation. It was a simple consequence of the
Fourier Integral Theorem, and closely related to the Heisenberg Uncertainty
Principle. So, for example, if you had a bandpass of a kilohertz, you couldn't
make out a signal that was modulated at faster than a millisecond. It would be
kind of a sonic blur. The Argus bandpasses were narrower than a hertz, so to be
detected the transmitters must be modulating very slowly, slower than one bit
of information a second. Still slower modulations--longer than hours,
say--could be detected easily, provided you were willing to point a telescope
at the source for that length of time, provided you were exceptionally patient.
There were so many pieces of the sky to look at, so many hundreds of billions
of stars to search out. You couldn't spend all your time on only a few of them.
She was troubled that in their haste to do a full sky survey in less than a
human lifetime, to listen to all of the sky at a billion frequencies, they had
abandoned both the frantic talkers and the laconic plodders.
But surely, she thought, they would know
better than we what modulation frequencies were acceptable. They would have had
previous experience with interstellar communication and newly emerging
civilizations. If there was a broad range of likely pulse rates that the
receiving civilization would adopt, the transmitting civilization would utilize
such a range. Modulate at microseconds, modulate at hours. What would it cost
them? They would, almost all of them, have superior engineering and enormous
power resources by Earth standards. If they wanted to communicate with us, they
would make it easy for us. They would send signals at many different
frequencies. They would use many different modulation timescales. They would
know how backward we are, and would have pity.
So why had we received no signal? Could
Dave possibly be right? No extraterrestrial civilizations anywhere? All those
billions of worlds going to waste, lifeless, barren? Intelligent beings growing
up only in this obscure corner of an incomprehensibly vast universe? No matter
how valiantly she tried, Ellie couldn't make herself take such a possibility
seriously. It dovetailed perfectly with human fears and pretentions, with
unproved doctrines about life-after-death, with such pseudosciences as
astrology. It was the modern incarnation of the geocentric solipsism, the
conceit that had captured our ancestors, the notion that we were the center of
the universe. Drumlin's argument was suspect on these grounds alone. We wanted
to believe it too badly.
Wait a minute, she thought. We haven't
even examined the northern skies once with the Argus system. In another seven
or eight years, if we've still heard nothing, that'll be the time to start
worrying. This is the first moment in human history when it's possible to
search for the inhabitants of other worlds. If we fail, we've calibrated
something of the rarity and preciousness of life on our planet--a fact, if it
is one, very much worth knowing. And if we succeed, we'll have changed the
history of our species, broken the shackles of provincialism. With the stakes
this high, you have to be willing to take some small professional risks, she
told herself. She pulled off the side of the road and did a shallow racing
turn, changed gears twice, and accelerated back toward the Argus facility. The
rabbits, still lining the roadside, but now pinked by dawn, craned their necks
to follow her departure.
CHAPTER 4
Prime
Numbers
Are there
no Moravians in the Moon, that not a missionary has yet visited this poor pagan
planet of ours to civilize civilization and Christianize Christendom?
-HERMAN MELVILLE
White
Jacket (1850)
Silence alone is great; all else is
weakness.
-ALFRED DEVIGNY
La Mort du
Loup (1864)
The cold
black vacuum had been left behind. The pulses were now approaching an ordinary
yellow dwarf star and had already begun spilling over the retinue of worlds in
this obscure system. They had fluttered by planets of hydrogen gas, penetrated
into moons of ice, breached the organic clouds of a frigid world on which the
precursors of life were stirring, and swept across a planet a billion years
past its prime. Now the pulses were washing against a warm world, blue and
white, spinning against the backdrop of the stars.
There was life on this world, extravagant
in its numbers and variety. There were jumping spiders at the chilly tops of
the highest mountains and sulfur-eating worms in hot vents gushing up through
ridges on the ocean floors. There were beings that could live only in
concentrated sulfuric acid, and beings that were destroyed by concentrated sulfuric
acid; organisms that were poisoned by oxygen, and organisms that could survive
only in oxygen, that actually breathed the stuff.
A particular lifeform, with a modicum of
intelligence, had recently spread across the planet. They had outposts on the
ocean floors and in low-altitude orbit. They had swarmed to every nook and
cranny of their small world. The boundary that marked the transition of night
into day was sweeping westward, and following its motion millions of these
beings ritually performed their morning ablutions. They donned great-coats and
dhotis; drank brews of coffee, tea, or dandelion; drove bicycles, automobiles,
or oxen; and briefly contemplated school assignments, prospects for spring
planting, and the fate of the world.
The first pulses in the train of radio
waves insinuated themselves through the atmosphere and clouds, struck the
landscape and were partially reflected back to space. As the Earth turned
beneath them, successive pulses arrived, engulfing not just this one planet but
the entire system. Very little of the energy was intercepted by any of the
worlds. Most of it passed effortlessly onward--as the yellow star and its
attendant worlds plunged, in an altogether different direction, into the inky
dark.
Wearing a
Dacron jacket displaying the word "Marauders" above a stylized felt
volleyball, the duty officer, beginning the night shift, approached the control
building. A klatch of radio astronomers was just leaving for dinner.
"How long have you guys been looking
for little green men? It's more than five years, isn't it now, Willie?"
They chided him good-naturedly, but he
could detect an edge to their banter.
"Give us a break, Willie,"
another of them said. "The quasar luminosity program is going great guns.
But it's gonna take forever if we only have two percent of the telescope
time."
"Sure, Jack, sure."
"Willie, we're looking back toward
the origin of the universe. There's a big stake in our program, too--and we
know there's a universe out there; you don't know there's a single little green
man."
"Take it up with Dr. Arroway. I'm
sure she'll be glad to hear your opinion." he replied a little sourly.
The duty officer entered the control
area. He made a quick survey of dozens of television screens monitoring the
progress of the radio search. They had just finished examining the
constellation Hercules. They had peered into the heart of a great swarm of
galaxies far beyond the Milky Way, the Hercules Cluster--a hundred million light-years
away; they had tuned in on M-13, a swarm of 300,000 stars, give or take a few,
gravitationally bound together, moving in orbit around the Milky Way Galaxy
26,000 light-years away; they had examined Ras Algethi, a double system, and
Zeta and Lambda Herculis--some stars different from the Sun, some similar to
it, all nearby. Most of the stars you can see with the naked eye are less that
a few hundred light-years away. They had carefully monitored hundreds of little
sectors of the sky within the constellation Hercules at a billion separate
frequencies, and they had heard nothing. In previous years they had searched
the constellations immediately west of Hercules--Serpens, Corona Borealis,
Boötes, Canes Venatici... and there also they had heard nothing.
A few of the telescopes, the duty officer
could see, were devoted to picking up some missed data in Hercules. The
remainder were aiming, boresighted, at an adjacent patch of sky, the next
constellation east of Hercules. To people in the eastern Mediterranean a few
thousand years ago, it had resembled a stringed musical instrument and was
associated with the Greek culture hero Orpheus. It was a constellation named
Lyra, the Lyre.
The computers turned the telescopes to
follow the stars in Lyra from starrise to starset, accumulated the radio
photons, monitored the health of the telescopes, and processed the data in a
format convenient for their human operators. Willie approached the command
console. He nodded pleasantly to the afternoon duty officer, now collecting his
notes and preparing to leave for dinner. Because the day's data were
conveniently summarized in amber on the master display, there was no need for
Willie to inquire about the progress of the preceding hours.
"As you can see, nothing much. There
was a pointing glitch--at least that's what it looked like--in
forty-nine," he said, waving vaguely toward the window. "The quasar
bunch freed up the one-tens and one- twenties about an hour ago. They seem to
be getting very good data."
"Yeah, I heard. They don't understand..."
His voice trailed off as an alarm light
flashed decorously on the console in front of them. On a display marked
"Intensity vs. Frequency" a sharp vertical spike was rising.
"Hey, look, it's a monochromatic
signal."
Another display, labeled "Intensity
vs. Time," showed a set of pulses moving left to right and then off the
screen.
"Those are numbers," Willie
said faintly. "Somebody's broadcasting numbers."
"It's probably some Air Force
interference. I saw an AWACS, probably from Kirtland, about sixteen hundred
hours. Maybe they're spoofing us for fun."
There had been solemn agreements to
safeguard at least some radio frequencies for astronomy. But precisely because
these frequencies represented a clear channel, the military found them
occasionally irresistible. If global war ever came, perhaps the radio
astronomers would be the first to know, their windows to the cosmos overflowing
with orders to battle-management and damage-assessment satellites in geosynchronous
orbit, and with the transmission of coded launch commands to distant strategic
outposts. Even with no military traffic, in listening to a billion frequencies
at once the astronomers had to expect some disruption. Lightning, automobile
ignitions, direct broadcast satellites were all sources of radio interference.
But the computers had their number, knew their characteristics and
systematically ignored them. To signals that were more ambiguous the computer
would listen with greater care and make sure they matched no inventory of data
it was programmed to understand. Every now and then an electronic intelligence
aircraft on a training mission--sometimes with a radar dish coyly disguised as
a flying saucer camped on its haunches--would fly by, and Argus would suddenly
detect unmistakable signatures of intelligent life. But it would always turn
out to be life of a peculiar and melancholy sort, intelligent to a degree,
extraterrestrial just barely. A few months before, an F-29E with
state-of-the-art electronic countermeasures passed overhead at 80,000 feet and
sounded the alarms on all 131 telescopes. To the unmilitary eyes of the
astronomers, the radio signature had been complex enough to be a plausible
first message from an extraterrestrial civilization. But they found the
westernmost radio telescope had received the signal a full minute before the
easternmost, and it soon become clear that it was an object streaking through
the thin envelop of air surrounding the Earth rather than a broadcast from some
unimaginably different civilization in the depths of space. Almost certainly
this one was the same thing.
*
* *
The fingers of her right hand were
inserted into five evenly spaced receptacles in a low box on her desk. Since
the invention of this device, she was able to save half an hour a week. But
there hadn't really been a great deal to do with that extra half hour.
"And I was telling Mrs. Yarborough
all about it. She's the one in the next bed, now that Mrs. Wertheimer passed
on. I don't mean to toot my own horn, but I take a lot of credit for what
you've done."
"Yes, Mother."
She examined the gloss on her fingernails
and decided that they needed another minute, maybe a minute-thirty.
"I was thinking about that time in
fourth grade--remember? When it was pouring and you didn't want to go to
school? You wanted me to write a note the next day saying you'd been out
because you were sick. And I wouldn't do it. I said, `Ellie, apart from being
beautiful, the most important thing in the world is an education. You can't do
much about being beautiful, but you can do something about an education. Go to
school. You never know what you might learn today.' Isn't that right?"
"Yes, Mother."
"But, I mean, isn't that what I told
you then?"
"Yes, I remember, Mom."
The gloss on her four fingers was
perfect, but her thumb still had a dull matte appearance.
"So I got your galoshes and your
raincoat--it was one of those yellow slickers, you looked cute as a button in it--and
scooted you off to school. And that's the day you couldn't answer a question in
Mr. Weisbrod's mathematics class? And you got so furious you marched down to
the college library and read up on it till you knew more about it than Mr.
Weisbrod. He was impressed. He told me."
"He told you? I didn't know that.
When did you talk to Mr. Weisbrod?"
"It was a parent-teacher meeting. He
said to me, `That girl of yours, she's a spunky one.' Or words to that effect.
`She got so mad at me, she became a real expert on it.' `Expert.' That's what
he said. I know I told you about it."
Her feet were propped up on a desk drawer
as she reclined in the swivel chair; she was stabilized only by her fingers in
the varnish machine. She felt the buzzer almost before she heard it, and
abruptly sat up.
"Mom, I gotta go."
"I'm sure I've told you this story
before. You just never pay attention to what I'm saying. Mr. Weisbrod, he was a
nice man. You never could see his good side."
"Mom, really, I've gotta go. We've
caught some kind of bogey."
"Bogey?"
"You know, Mom, something that might
be a signal. We've talked about it."
"There we are, both of us thinking
the other one isn't listening. Like mother, like daughter."
"Bye, Mom."
"I'll let you go if you promise to
call me right after."
"Okay, Mom. I promise."
Through the whole conversation, her
mother's need and loneliness had elicited in Ellie a wish to end the
conversation, to run away. She hated herself for that.
*
* *
Briskly she entered the control area and
approached the main console.
"Evening, Willie, Steve. Let's see
the data. Good. Now where did you tuck away the amplitude plot? Good. Do you
have the interferometric position? Okay. Now let's see if there's any nearby
star in that field of view. Oh my, we're looking at Vega. That's a pretty near
neighbor."
Her fingers were punching away at a
keyboard as she talked.
"Look, it's only twenty-six
light-years away. It's been observed before, always with negative results. I
looked at it myself in my first Arecibo survey. What's the absolute intensity?
Holy Toledo. That's hundreds of janskys. You could practically pick that up on
your FM radio.
"Okay. So we have a bogey very near
to Vega in the plane of the sky It's at a frequency around 9.2 gigahertz, not
very monochromatic: The bandwidth is a few hundred hertz. It's linearly
polarized and it's transmitting a set of moving pulses restricted to two
different amplitudes."
In response to her typed commands the
screen now displayed the disposition of all the radio telescopes.
"It's being received by 116
individual telescopes. Clearly it's not a malfunction in one or two of them.
Okay, now we should have plenty of time baseline. Is it moving with the stars?
Or could it be some ELINT satellite or aircraft?"
"I can confirm sidereal motion, Dr.
Arroway."
"Okay, that's pretty convincing.
It's not down here on Earth, and it probably isn't from an artificial satellite
in a Molniya orbit, although we should check that. When you get a chance,
Willie, call up NORAD and see what they say about the satellite possibility. If
we can exclude satellites, that will leave two possibilities: It's a hoax, or
somebody has finally gotten around to sending us a message. Steve, do a manual
override. Check a few individual radio telescopes--the signal strength is
certainly large enough--and see if there's any chance this is a hoax; you know,
a practical joke by someone who wishes to teach us the error of our ways."
"A handful of other scientists and
technicians, alerted on their buzzers by the Argus computer, had gathered
around the command console. There were half smiles on their faces. None of them
was thinking seriously of a message from another world quite yet, but there was
a sense of no-school-today, a break in the tedious routine to which they had
become accustomed, and perhaps a faint air of expectation.
"If any of you can think of any
other explanation besides extraterrestrial intelligence, I want to hear about
it," she said, acknowledging their presence.
"There's no way it could be Vega,
Dr. Arroway. The system's only a few hundred million years old. Its planets are
still in the process of forming. There isn't time for intelligent life to have
developed there. It has to be some background star. Or galaxy."
"But then the transmitter power has
to be ridiculously large," responded a member of the quasar group who had
returned to see what was happening. "We need to get going right away on a
sensitive proper motion study, so we can see if the radio source moves with
Vega."
"Of course, you're right about the
proper motion, Jack," she said. "But there's another possibility.
Maybe they didn't grow up in the Vega system. Maybe they're just
visiting."
"That's no good either. The system
is full of debris. It's a failed solar system or solar system still in its
early stages of development. If they stay very long, their spacecraft'll be
clobbered."
"So they only arrived recently. Or
they vaporize incoming meteorites. Or they take evasive action if there's a
piece of debris on a collision trajectory. Or they're not in the ring plane but
in polar orbit, so they minimize their encounters with the debris. There's a
million possibilities. But you're absolutely right; we don't have to guess
whether the source is in the Vega system. We can actually find out. How long
will that proper motion study take? By the way, Steve, this isn't your shift.
At least tell Consuela you're going to be late for dinner."
Willie, who had been talking on the phone
at an adjacent console, was displaying a wan smile. "Well, I got through
to a Major Braintree at NORAD. He swears up and down they have nothing that'll
give this signal, especially not at nine gigahertz. 'Course, they tell us that
every time we call. Anyway, he says they haven't detected any spacecraft at the
right ascension and declination of Vega."
"What about darks?"
By this time there were many
"dark" satellites with low radar cross sections, designed to orbit
Earth unannounced and undetected until an hour of need. Then they would serve
as backups for launch detection or communications in a nuclear war, in case the
first-line military satellites dedicated to these purposes were suddenly
missing in action. Occasionally a dark would be detected by one of the major
astronomical radar systems. All nations would deny that the object belonged to
them, and breathless speculation would erupt that an extraterrestrial
spacecraft had been detected in Earth orbit. As the Millennium approached, the
UFO cults were thriving again.
"Interferometry now rules out a
Molniya-type orbit, Dr. Arroway."
"Better and better. Now let's take a
closer look at those moving pulses. Assuming that this is binary arithmetic,
has anybody converted it into base ten? Do we know what the sequence of numbers
is? Okay, here, we can do it in our heads... fifty-nine, sixty-one,
sixty-seven... seventy-one... Aren't these all prime numbers?"
A little buzz of excitement circulated
through the control room. Ellie's own face momentarily revealed a flutter of
something deeply felt, but this was quickly replaced by a sobriety, a fear of
being carried away, an apprehension about appearing foolish, unscientific.
"Okay, let's see if I can do another
quick summary. I'll do it in the simplest language. Please check if I've missed
anything. We have an extremely strong, not very monochromatic signal.
Immediately outside the bandpass of this signal there are no other frequencies
reporting anything besides noise. The signal is linearly polarized, as if it's
being broadcast by a radio telescope. The signal is around nine gigahertz, near
the minimum in the galactic radio noise background. It's the right kind of
frequency for anyone who wants to be heard over a big distance. We've confirmed
sidereal motion of the source, so it's moving as if it's up there among the
stars and not from some local transmitter. NORAD tells us that they don't
detect any satellites-- ours or anybody else's--that match the position of this
source. Interferometry excludes a source in Earth orbit anyway.
"Steve has now looked at the data
outside the automated mode, and it doesn't seem to be a program that somebody
with a warped sense of humor put into the computer. The region of the sky we're
looking at includes Vega, which is an A-zero main sequence dwarf star. It's not
exactly like the Sun, but it's only twenty-six light-years away, and it has the
prototype stellar debris ring. There are no known planets, but there certainly
could be planets we don't know anything about around Vega. We're setting up a
proper motion study to see if the source is well behind our line of sight to
Vega, and we should have an answer in-- what?--a few weeks if we're restricted
on our own, a few hours if we do some long-baseline interferometry.
"Finally, what's being sent seems to
be a long sequence of prime numbers, integers that can't be divided by any
other number except themselves and one. No astrophysical process is likely to
generate prime numbers. So I'd say--we want to be cautious, of course--but I'd
say that by every criterion we can lay our hands on, this looks like the real
thing.
"But there's a problem with the idea
that this is a message from guys who evolved on some planet around Vega,
because they would have had to evolve very fast. The entire lifetime of the
star is only about four hundred million years. It's an unlikely place for the
nearest civilization. So the proper motion study is very important. But I sure
would like to check out that hoax possibility some more."
"Look," said one of the quasar
survey astronomers who had been hovering in the back. He inclined his jaw to
the western horizon where a faint pink aura showed unmistakably where the Sun
had set. "Vega is going to set in another couple of hours. It's probably
already risen in Australia. Can't we call Sydney and get them looking at the
same time that we're still seeing it?"
"Good idea. It's only middle
afternoon there. And together we'll have enough baseline for the proper motion
study. Give me that summary printout, and I'll telefax it to Australia from my
office."
With deliberate composure, Ellie left the
assembled group crowded around the consoles and returned to her office. She
closed the door very carefully behind her.
"Holy shit!" she whispered.
*
* *
"Ian Broderick, please. Yes. This is
Eleanor Arroway at Project Argus. It's something of an emergency. Thanks, I'll
hold on.... Hello, Ian? It's probably nothing, but we have a bogey here and
wonder if you could just check it out for us. It's around nine gigahertz, with
a few hundred hertz bandpass. I'm telefaxing the parameters now.... You have a
feed good at nine gigahertz already on the dish? That's a bit of luck.... Yes,
Vega is smack in the middle of the field of view. And we're getting what looks
like prime number pulses.... Really. Okay, I'll hold on."
She considered again how backward the
world astronomical community still was. A joint computer data-basing system was
still not on-line. Its value for asynchronous telenetting alone would...
"Listen, Ian, while the telescope
finishes slewing, could you set up to look at an amplitude-time plot? Let's
call the low-amplitude pulses dots and the high-amplitude pulses dashes. We're
getting... Yes that's just the pattern we've been seeing for the last half
hour.... Maybe. Well, it's the best candidate in five years, but I keep remembering
how badly the Soviets got fooled with that Big Bird satellite incident around
'74. Well, the way I understand it, it was a U.S. radar altimetry survey of the
Soviet Union for cruise missile guidance.... Yes, a terrain mapper. And the
Soviets were picking it up on omnidirectional antennas. They couldn't tell
where in the sky the signal was coming from. All they knew was they were
getting the same sequence of pulses from the sky at about the same time every
morning. Their people assured them it wasn't a military transmission, so
naturally they thought it was extraterrestrial.... No, we've excluded a
satellite transmission already.
"Ian, could we trouble you to follow
it for as long as it's in your sky? I'll talk to you about VLBI later. I'm
going to see if I can't get other radio observatories, distributed pretty
evenly in longitude, to follow it until it reappears back here.... Yes, but I
don't know if it's easy to make a direct phone call to China. I'm thinking of
sending an IAU telegram.... Fine. Many thanks, Ian."
Ellie paused in the doorway of the
control room--they called it that with conscious irony, because it was the
computers, in another room, that by and large did the controlling--to admire
the small group of scientists who were talking with great animation,
scrutinizing the data being displayed, and engaging in mild badinage on the
nature of the signal. These were not stylish people, she thought. They were not
conventionally good-looking. But there was something unmistakably attractive
about them. They were excellent at what they did and, especially in the
discovery process, were utterly absorbed in their work. As she approached, they
fell silent and looked at her expectantly. The numerals were now being
converted automatically from base 2 to base 10... 881, 883, 887, 907... each
one confirmed as a prime number.
"Willie, get me a world map. And
please get me Mark Auerbach in Cambridge, Mass. He'll probably be at home. Give
him this message for an IAU telegram to all observatories, but especially to
all large radio observatories. And see if he'll check our telephone number for
the Beijing Radio Observatory. Then get me the President's Science
Adviser."
"You're going to bypass the National
Science Foundation?"
"After Auerbach, get me the
President's Science Adviser.'
In her mind she thought she could hear
one joyous shout amidst a clamor of other voices.
*
* *
By bicycle, small truck, perambulatory
mailman, or telephone, the single paragraph was delivered to astronomical
centers all over the world. In a few major radio observatories--in China,
India, the Soviet Union, and Holland, for example--the message was delivered by
teletype. As it chattered in, it was scanned by a security officer or some
passing astronomer, torn off, and with a look of some curiosity carried into an
adjacent office. It read:
ANOMALOUS INTERMITTENT RADIO SOURCE AT
RIGHT ASCENSION 18h 34M, DECLINATION PLUS 38 DEGREES 41 MINUTES, DISCOVERED BY
ARGUS SYSTEMATIC SKY SURVEY. FREQUENCY 9.24176684 GIGAHERTZ, BANDPASS
APPROXIMATELY 430 HERTZ. BIMODAL AMPLITUDES APPROXIMATELY 174 AND 179 JANSKYS.
EVIDENCE AMPLITUDES ENCODE SEQUENCE OF PRIME NUMBERS. FULL LONGITUDE COVERAGE
URGENTLY NEEDED. PLEASE CALL COLLECT FOR FURTHER INFORMATION IN COORDINATING
OBSERVATIONS. E. ARROWAY, DIRECTOR, PROJECT ARGUS, SOCORRO, NEW MEXICO, U.S.A.
CHAPTER 5
Decryption
Algorithm
Oh, speak
again, bright angel...
-WILLIAM SHAKESPEARE
Romeo and Juliet
The visiting scientists' quarters were
now all occupied, indeed overcrowded, by selected luminaries of the SETI
community. When the official delegations began arriving from Washington, they
found no suitable accommodations at the Argus site and had to be billeted at
motels in nearby Socorro. Kenneth der Heer, the President's Science Adviser,
was the only exception. He had arrived the day after the discovery, in response
to an urgent call from Eleanor Arroway. Officials from the National Science
Foundation, the National Aeronautics and Space Administration, the Department
of Defense, the President's Science Advisory Committee, the National Security
Council, and the National Security Agency trickled in during the next few days.
There were a few government employees whose precise institutional affiliations
remained obscure.
The previous evening, some of them stood
at the base of Telescope 101 and had Vega pointed out to them for the first
time. Obligingly, its blue-white light flickered prettily.
"I mean, I've seen it before, but I
never knew what it was called," one of them remarked. Vega appeared
brighter than the other stars in the sky, but in no other way noteworthy. It
was merely one of the few thousand naked-eye stars.
The scientists were running a continuous
research seminar on the nature, origin, and possible significance of the radio
pulses. The project's public affairs office--larger than in most observatories
because of widespread interest in the search for extraterrestrial
intelligence--was assigned the task of filling in the lower-ranking officials.
Every new arrival required an extensive personal briefing. Ellie, who was
obliged to brief the senior officials, supervise the ongoing research, and
respond to the entirely proper skeptical scrutiny being offered with some vigor
by her colleagues, was exhausted. The luxury of a full night's sleep had eluded
her since the discovery.
At first they had tried to keep the
finding quiet. After all, they were not absolutely sure it was an
extraterrestrial message. A premature or mistaken announcement would be a
public relations disaster. But worse than that, it would interfere with the
data analysis. If the press descended, the science would surely suffer.
Washington as well as Argus was keen to keep the story quiet. But the
scientists had told their families, the International Astronomical Union
telegram had been sent all over the world, and still rudimentary astronomical
data-basing systems in Europe, North America, and Japan were all carrying news
of the discovery.
Although there had been a range of contingency plans for the
public release of any findings, the actual circumstances had caught them
largely unprepared. They drafted as innocuous a statement as they could and released
it only when they had to. It caused, of course, a sensation.
They had asked the media's forbearance,
but knew there would be only a brief period before the press would descend in
force. They had tried to discourage reporters from visiting the site,
explaining that there was no real information in the signals they were
receiving, just tedious and repetitive prime numbers. The press was impatient
with the absence of hard news. "You can only do so many sidebars on `What
is a prime number?'" one reporter explained to Ellie over the telephone.
Television camera crews in fixed-wing air
taxis and chartered helicopters began making low passes over the facility,
sometimes generating strong radio interference easily detected by the
telescopes. Some reporters stalked the officials from Washington when they
returned to their motels at night. A few of the more enterprising had attempted
to enter the facility unobserved--by beach buggy, motorcycle, and in one case
on horseback. She had been forced to inquire about bulk rates on cyclone fencing.
Immediately after der Heer arrived, he
had received an early version of what was by now Ellie's standard briefing: the
surprising intensity of the signal, its location in very much the same part of
the sky as the star Vega, the nature of the pulses.
"I may be the President's Science
Adviser," he had said, "but I'm only a biologist. So please explain
it to me slowly. I understand that if the radio source is twenty-six
light-years away, then the message had to be sent twenty-six years ago. In the
1960s, some funny-looking people with pointy ears thought we'd want to know
that they like prime numbers. But prime numbers aren't difficult. It's not like
they're boasting. It's more like they're sending us remedial arithmetic. Maybe
we should be insulted."
"No, look at it this way," she
said, smiling. "This is a beacon. It's an announcement signal. It's
designed to attract our attention. We get strange patterns of pulses from
quasars and pulsars and radio galaxies and God-knows-what. But prime numbers
are very specific, very artificial. No even number is prime, for example. It's
hard to imagine some radiating plasma or exploding galaxy sending out a regular
set of mathematical signals like this. The prime numbers are to attract our
attention."
"But what for?" he had asked, genuinely baffled.
"I don't know. But in this business
you have to be very patient. Maybe in a while the prime numbers will turn off
and be replaced by something else, something very rich, the real message. We
just have to keep on listening."
This was the hardest part to explain to
the press, that the signals had essentially no content, no meaning--just the
first few hundred prime numbers in order, a cycling back to the beginning, and
again the simple binary arithmetic representations: 1, 2, 3, 5, 7, 11, 13, 17,
19, 23, 29, 31... Nine wasn't a prime number, she'd explain, because it was
divisible by 3 (as well as 9 and 1, of course). Ten wasn't a prime number
because 5 and 2 went into it (as well as 10 and 1). Eleven was a prime number
because it was divisible only by 1 and itself. But why transmit prime numbers?
It reminded her of an idiot savant, one of those people who might be grossly
deficient in ordinary social or verbal skills but who could perform mind- boggling
feats of mental arithmetic--such as figuring out, after a moment's thought, on
what day of the week June first in the year 11,977 will fall. It wasn't for
anything; they did it because they liked doing it, because they were able to do
it.
She knew it was only a few days after
receipt of the message, but she was at once exhilarated and deeply
disappointed. After all these years, they had finally received a signal--sort
of. But its content was shallow, hollow, empty. She had imagined receiving the
Encyclopedia Galactica.
We've only achieved the capacity for
radio astronomy in the last few decades, she reminded herself, in a Galaxy
where the average star is billions of years old. The chance of receiving a
signal from a civilization exactly as advanced as we are should be minuscule.
If they were even a little behind us, they would lack the technological
capability to communicate with us at all. So the most likely signal would come
from a civilization much more advanced. Maybe they would be able to write full
and melodic mirror fugues: The counterpoint would be the theme written
backwards. No, she decided. While this was a kind of genius without a doubt,
and certainly beyond her ability, it was a tiny extrapolation from what human
beings could do. Bach and Mozart had made at least respectable stabs at it.
She tried to make a bigger leap, into the
mind of someone who was enormously, orders of magnitude, more intelligent than
she was, smarter than Drumlin, say, or Eda the young Nigerian physicist who had
just won the Nobel Prize. But it was impossible. She could muse about
demonstrating Fermat's Last Theorem or the Goldbach Conjecture in only a few
lines of equations. She could imagine problems enormously beyond us that would
be old hat to them. But she couldn't get into their minds; she couldn't imagine
what thinking would be like if you were much more capable than a human being.
Of course. Nor surprise. What did she expect? It was like trying to visualize a
new primary color or a world in which you could recognize several hundred
acquaintances individually only by their smells.... She could talk about this,
but she couldn't experience it. By definition, it has to be mighty hard to
understand the behavior of a being much smarter than you are. Buy even so, even
so: Why only prime numbers?
*
* *
The Argus radio astronomers had made
progress in the last few days. Vega had a known motion--a known component of
its velocity toward or away from the Earth, and a known component laterally,
across the sky, against the background of more distant stars. The Argus
telescopes, working together with radio observatories in West Virginia and
Australia, had determined that the source was moving with Vega. Not only was
the signal coming, as carefully as they could measure, from where Vega was in
the sky; but the signal also shared the peculiar and characteristic motions of
Vega. Unless this was a hoax of heroic proportions, the source of the prime
number pulses was indeed in the Vega system. There was no additional Doppler
effect due to the motion of the transmitter, perhaps tied to a planet, about
Vega. The extraterrestrials had compensated for the orbital motion. Perhaps it
was a kind of interstellar courtesy.
"It's the goddamnedest most
wonderful thing I ever heard of. And it's got nothing to do with our
shop," said an official of the Defense Advanced Research Projects Agency,
preparing to return to Washington.
As soon as the discovery had been made,
Ellie had assigned a handful of the telescopes to examine Vega in a range of
other frequencies. Sure enough, they had found the same signal, the same
monotonous succession of prime numbers, beeping away in the 1420 megahertz
hydrogen line, the 1667 megahertz hydroxyl line, and at many other frequencies.
All over the radio spectrum, with an electromagnetic orchestra, Vega was
bleating out prime numbers.
"It doesn't make sense," said
drumlin, casually touching his belt buckle. "We couldn't have missed it
before. Everybody's looked at Vega. For years. Arroway observed it from Arecibo
a decade ago. Suddenly last Tuesday Vega starts broadcasting prime numbers? Why
now? What's so special about now? How come they start transmitting just a few
years after Argus starts listening?"
"Maybe their transmitter was down
for repairs for a couple of centuries," Valerian suggested, "and they
just got it back on-line. maybe their duty cycle is to broadcast to us just one
year out of every million. There are all those other candidate planets that might
have life on them, you know. We're probably not the only kid on the
block." But Drumlin, plainly dissatisfied, only shook his head.
Although his nature was the opposite of
conspiratorial, Valerian thought he had caught an undercurrent in Drumlin's
last question: could all this be a reckless, desperate attempt by Argus
scientists to prevent a premature closing down of the project? It wasn't
possible. Valerian shook his head. As der Heer walked by, he found himself
confronted by two senior experts on the SETI problem silently shaking their
heads at one another.
Between the scientists and the
bureaucrats there was a kind of unease, a mutual discomfort, a clash of
fundamental assumptions. One of the electrical engineers called it an impedance
mismatch. The scientists were too speculative, too quantitative, and too casual
about talking to anybody for the tastes of many of the bureaucrats. The
bureaucrats were too unimaginative, too qualitative, too uncommunicative for
many of the scientists. Ellie and especially der Heer tried hard to bridge the
gap, but the pontoons kept being swept downstream.
This night, cigarette butts and coffee
cups were everywhere. The casually dressed scientists, Washington officials in
light-weight suits, and an occasional flag-rank military officer filled the
control room, the seminar room, the small auditorium, and spilled out of doors,
where, illuminated by cigarettes and starlight, some of the discussions
continued. But tempers were frayed. The strain was showing.
*
* *
"Dr. Arroway, this is Michael Kitz,
Assistant Secretary of Defense for C3I."
Introducing Kitz and positioning himself
just a step behind him, der Heer was communicating... what? Some unlikely mix
of emotions. Bemusement in the arms of prudence? He seemed to be appealing for
restraint. Did he think her such a hothead? "C3I"--pronounced
cee-cubed-eye--stood for Command, Control, Communications, and Intelligence,
important responsibilities at a time when the United States and the Soviet
Union were gamely making major phased reductions in their strategic nuclear
arsenals. It was a job for a cautious man.
Kitz settled himself in one of the two
chairs across the desk from Ellie, leaned forward, and read the Kafka quote. He
was unimpressed.
"Dr. Arroway, let me come right to the point. We're concerned about
whether it's in the best interest of the United States for this information to
be generally known. We were not overjoyed about your sending that telegram all
over the world."
"You mean to China? To Russia? To
India?" Her voice, despite her best effort, had a discernible edge to it.
"You wanted to keep the first 261 prime numbers secret? Do you suppose,
Mr. Kitz, the extraterrestrials intended to communicate only with Americans? Don't
you think that a message from another civilization belongs to the whole
world?"
"You might have asked our
advice."
"And risk losing the signal? Look,
for all we know, something essential, something unique might have been
broadcast after Vega had set her in New Mexico but when it was high in the sky
over Beijing. These signals aren't exactly a person-to-person call to the U.S.
of A. They're not even a person-to-person call to the Earth. It's
station-to-station to any planet in the solar system. We just happened to be
lucky enough to pick up the phone."
Der Heer was radiating something again.
What was he trying to tell her? That he liked that elementary analogy, but ease
up on Kitz?
"In any case," she continued,
"it's too late. Everybody knows now that there's some kind of intelligent
life in the Vega system."
"I'm not sure it's too late, Dr.
Arroway. You seem to think there'll be some information-rich transmission, a
message, still to come. Dr. der Heer here"--he paused to listen to the
unexpected assonance--"Dr. der Heer says you think these prime numbers are
an announcement, something to make us pay attention. If there is a message and
it's subtle--something those other countries wouldn't pick up right away--I
want it kept quiet until we can talk about it."
"Many of us have wants, Mr. Kitz,
she found herself saying sweetly, ignoring der Heer's raised eyebrows. There
was something irritating, almost provocative, about Kitz's manner. And probably
hers as well. "I, for example, have a want to understand what the meaning
of this signal is, and what's happening on Vega, and what it means for the
Earth. It's possible that scientists in other nations are the key to that
understanding. Maybe we'll need their data. Maybe we'll need their brains. I
could imagine this might be a problem too big for one country to handle all by
itself."
Der Heer now appeared faintly alarmed.
"Uh, Dr. Arroway. Secretary Kitz's suggestion isn't all that unreasonable.
It's very possible we'd bring other nations in. All he's asking is to talk
about it with us first. And that's only if there's a new message."
His tone was calming but not unctuous.
She looked at him closely again. Der Heer was not a patently handsome man, but
he had a kind and intelligent face. He was wearing a blue suit and a crisp
oxford shirt. His seriousness and air of self-possession were moderated by the
warmth of his smile. Why, then, was he shilling for this jerk? Part of his job?
Could it be that Kitz was talking sense?
"It's a remote contingency
anyway." Kitz sighed as he got to his feet. "The Secretary of Defense
would appreciate your cooperation." He was trying to be winning.
"Agreed?"
"Let me think about it," she
replied, taking his proffered hand as if it were a dead fish.
"I'll be along in a few minutes,
Mike," der Heer said cheerfully.
His hand on the lintel of the door, Kitz
had an apparent afterthought, removed a document from his inside breast pocket,
returned, and placed it gingerly on the corner of her desk. "Oh yes, I
forgot. Here's a copy of the Hadden Decision. You probably know it. It's about
the government's right to classify material vital to the security of the United
States. Even if it didn't originate in a classified facility."
"You want to classify the prime
numbers?" she asked, her eyes wide in mock incredulity.
"See you outside, Ken."
She began talking the moment Kitz left
her office. "What's he after? Vegan death rays? World blower-uppers?
What's this really about?"
"He's just being prudent, Ellie. I
can see you don't think that's the whole story. Okay. Suppose there's some
message--you know, with real content--and in it there's something offensive to
Muslims, say, or to Methodists. Shouldn't we release it carefully, so the
United States doesn't get a black eye?"
"Ken, don't bullshit me. That man is
an Assistant Secretary of Defense. If they're worried about Muslims and
Methodists, they would have sent me an Assistant Secretary of State, or--I
don't know--one of those religious fanatics who preside at presidential prayer
breakfasts. You're the President's Science Adviser. What did you advise
her?"
"I haven't advised her anything.
Since I've been here, I've only talked to her once, briefly, on the phone. And
I'll be frank with you, she didn't give me any instructions about
classification. I thought what Kitz said was way off base. I think he's acting
on his own."
"Who is he?"
"As far as I know, he's a lawyer. He
was a top executive in the electronics industry before joining the
Administration. He really knows C3I, but that doesn't make him knowledgeable
about anything else."
"Ken, I trust you. I believe you
didn't set me up for this Hadden Decision threat." She waved the document
in front of her and paused, seeking his eyes. "Do you know that Drumlin
thinks there's another message in the polarization?"
"I don't understand."
"Just a few hours ago, Dave finished
a rough statistical study of the polarization. He's represented the Stokes
parameters by Poin-caré spheres; there's a nice movie of them varying in
time."
Der Heer looked at her blankly. Don't
biologists use polarized light in their microscopes? she asked herself.
"When a wave of light comes at
you--visible light, radio light, any kind of light--it's vibrating at right
angles to your line of sight. If that vibration rotates, the wave is said to be
elliptically polarized. If it rotates clockwise, the polarization is called
right-handed; counterclockwise, it's left-handed. I know it's a dumb
designation. Anyway, by varying between the two kinds of polarization, you
could transmit information. A little right polarization and that's a zero; a
little left and it's a one. Follow? It's perfectly possible. We have amplitude
modulation and frequency modulation, but our civilization, by convention,
ordinarily just doesn't do polarization modulation.
"Well, the Vega signal looks as if
it has polarization modulating. We're busy checking it out right now. But Dave
found that there wasn't an equal amount of the two sorts of polarization. It
wasn't left polarized as much as it was right polarized. It's just possible
that there's another message in the polarization that we've missed so far.
That's why I'm suspicious about your friend. Kitz isn't just giving me general
gratuitous advice. He knows we may be onto something else."
"Ellie, take it easy. You've hardly
slept for four days. You've been juggling the science, the administration, and
the press. You've already made one of the major discoveries of the century, and
if I understand you right, you might be on the verge of something even more
important. You've got every right to be a little on edge. And threatening to
militarize the project was clumsy of Kitz. I don't have any trouble
understanding why you're suspicious of him. But there's some sense to what he
says."
"Do you know the man?"
"I've been in a few meetings with
him. I can hardly say I know him. Ellie, if there's a possibility of a real
message coming in, wouldn't it be a good idea to thin out the crowd a
little?"
"Sure. Give me a hand with some of
the Washington deadwood."
"Okay. And if you leave that
document on your desk, someone'll be in here and draw the wrong conclusion. Why
don't you put it away somewhere?"
"You're going to help?"
"If the situation stays anything
like what it is now, I'll help. We're not going to make our best effort if this
thing gets classified."
Smiling, Ellie knelt before her small
office safe, and punched in the six-digit combination, 314159. She took one
last glance at the document that was titled in large black letters THE UNITED
STATES VS. HADDEN CYBERNETICS, and locked it away.
*
* *
It was a group of about thirty
people--technicians and scientists associated with Project Argus, a few senior
government officials, including the Deputy Director of the Defense Intelligence
Agency in civilian clothes. Among them were Valerian, Drumlin, Kitz, and der
Heer. Ellie was the only woman. They had set up a large television projection
system, focused on a two-meter-by-two-meter screen set flush against the far
wall. Ellie was simultaneously addressing the group and the decryption program,
her fingers on the keyboard before her.
"Over the years we've prepared for
the computer decryption of many kinds of possible messages. We've just learned
from Dr. Drumlin's analysis that there's information in the polarization
modulation. All that frenetic switching between left and right means something.
It's not random noise. It's as if you're flipping a coin. Of course, you expect
as many heads as tails, but instead you get twice as many heads as tails. so
you conclude that the coin is loaded or, in our case, that the polarization
modulation isn't random; it has content.... Oh, look at this. What the computer
has just now told us is even more interesting. The precise sequence of heads
and tails repeats. It's a long sequence, so it's a pretty complex message, and
the transmitting civilization must want us to be sure to get it right.
"Here, you see? This is the
repeating message. We're now into the first repetition. Every bit of
information, every dot and dash--if you want to think of them that way--is
identical to what it was in the last block of data. Now we analyze the total
number of buts. It's a number in the tens of billions. Okay, bingo! It's the
product of three prime numbers."
Although Drumlin and Valerian were both
beaming, it seemed to Ellie they were experiencing quite different emotions.
"So what? What do some more prime
numbers mean?" a visitor from Washington asked.
"It means--maybe--that we're being
sent a picture. You see, this message is made of a large number of bits of
information. Suppose that large number is the product of three smaller numbers;
it's a number times a number times a number. So there's three dimensions to the
message. I'd guess either it's a single static three-dimensional picture like a
stationary hologram, or it's a two-dimensional picture that changes with
time--a movie. Let's assume it's a movie. If it's a hologram, it'll take us
longer to display anyway. We've got an ideal decryption algorithm for this
one."
On the screen, they made out an
indistinct moving pattern composed of perfect whites and perfect blacks.
"Willie, put in some gray
interpolation program, would you? Anything reasonable. And try rotating it
about ninety degrees counterclockwise."
"Dr. Arroway, there seems to be an
auxiliary sideband channel. Maybe it's the audio to go with the movie."
"Punch it up."
The only other practical application of
prime numbers she could think of was public-key cryptography, now widely used
in commercial and national security contexts. One application was to make a
message clear to dummies; the other was to keep a message hidden from the
tolerably intelligent.
Ellie scanned the faces before her. Kitz
looked uncomfortable. Perhaps he was anticipation some alien invader or, worse,
the design drawings of a weapon too secret for her staff to be trusted with.
Willie looked very earnest and was swallowing over and over again. A picture is
different from mere numbers. The possibility of a visual message was clearly
rousing unexamined fears and fantasies in the hearts of many of the onlookers.
Der Heer had a wonderful expression on his face; for the moment he seemed much
less the official, the bureaucrat, the presidential adviser, and much more the
scientist.
The picture, still unintelligible, was
joined by a deep rumbling glissando of sounds, sliding first up and then down
the audio spectrum until it gravitated to rest somewhere around the octave
below middle C. Slowly the group became aware of faint but swelling music. The
picture rotated, rectified, and focused.
Ellie found herself staring at a
black-and-white grainy image of... a massive reviewing stand adorned with an
immense art deco eagle. Clutched in the eagle's concrete talons...
"Hoax! It's a hoax!" There were
cries of astonishment, incredulity, laughter, mild hysteria.
"Don't you see? You've been
hoodwinked," Drumlin was saying to her almost conversationally. He was
smiling. "It's an elaborate practical joke. You've been wasting the time
of everybody here."
Clutched in the eagle's concrete talons,
she could now see clearly, was a swastika. The camera zoomed in above the eagle
to find the smiling face of Adolf Hitler, waving to a rhythmically chanting
crowd. His uniform, devoid of military decorations, conveyed a modest
simplicity. The deep baritone voice of an announcer, scratchy but unmistakably
speaking German, filled the room. Der Heer moved toward her.
"Do you know German?" she
whispered. "What's it saying?"
"The Fuehrer," he translated
slowly, "welcomes the world to the German Fatherland for the opening of
the 1936 Olympic Games."
CHAPTER 6
Palimpsest
And if the
Guardians are not happy, who else can be?
-ARISTOTLE
The
Politics
Book 2,
Chapter 5
As the
plane reached cruising altitude, with Albuquerque already more than a hundred
miles behind them, Ellie idly glanced at the small white cardboard rectangle
imprinted with blue letters that had been stapled to her airline ticket
envelope. It read, in language unchanged since her first commercial flight,
"This is not the luggage ticket (baggage check) described by Article 4 of
the Warsaw Convention." Why were the airlines so worried, she wondered,
that passengers might mistake this piece of cardboard for the Warsaw Convention
ticket? Why had she never seen one? Where were they storing them? In some
forgotten key event in the history of aviation, an inattentive airline must
have forgotten to print this caveat on cardboard rectangles and was sued into
bankruptcy by irate passengers laboring under the misapprehension that this was
the Warsaw luggage ticket. Doubtless there were sound financial reasons for
this worldwide concern, never otherwise articulated, about which pieces of cardboard
are not described by the Warsaw Convention. Imagine, she thought, all those
cumulative lines of type devoted instead to something useful--the history of
world exploration, say, or incidental facts of science, or even the average
number of passenger miles until your airplane crashed.
If she had accepted der Heer's offer of a
military airplane, she would be having other casual associations. But that
would have been far too cozy, perhaps some aperture leading to an eventual
militarization of the project. They had preferred to travel by commercial
carrier. Valerian's eyes were already closed as he finished settling into the
seat beside her. There had been no particular hurry, even after taking care of
those last-minute details on the data analysis, with the hint that the second
layer of the onion was about to unpeel. They had been able to make a commercial
flight that would arrive in Washington well before tomorrow's meeting; in fact,
in plenty of time for a good night's sleep.
She glanced at the telefax system neatly
zipped into a leather carrying case under the seat in front of her. It was
several hundred kilobits per second faster than Peter's old model and displayed
much better graphics. Well, maybe tomorrow she would have to use it to explain
to the President of the United States what Adolf Hitler was doing on Vega. She
was, she admitted to herself, a little nervous about the meeting. She had never
met a President before, and by late-twentieth-century standards, this one
wasn't half bad. She hadn't had time to get her hair done, much less a facial.
Oh well, she wasn't going to the White House to be looked at.
What would her stepfather think? Did he
still believe she was unsuited for science? Or her mother, now confined to a
wheelchair in a nursing home? She had managed only one brief phone call to her
mother since the discovery over a week ago, and promised herself to call again
tomorrow.
As she had done a hundred times before,
she peered out the airplane window and imagined what impression the Earth would
make on an extraterrestrial observer, at this cruising altitude of twelve or
fourteen kilometers, and assuming the alien had eyes something like ours. There
were vast areas of the Midwest intricately geometrized with squared, rectangles,
and circles by those with agricultural or urban predilections; and, as here,
vast areas of the Southwest in which the only sign of intelligent life was an
occasional straight line heading between mountains and across deserts. Are the
worlds of more advanced civilizations totally geometrized, entirely rebuilt by
their inhabitants? Or would the signature of a really advanced civilization be
that they left no sign at all? Would they be able to tell in one swift glance
precisely which stage we were in some great cosmic evolutionary sequence in the
development of intelligent beings?
What else could they tell? From the
blueness of the sky, they could make a rough estimate of Loschmidt's Number,
how many molecules there were in a cubic centimeter at sea level. About three
times ten to the nineteenth. They could easily tell the altitudes of the clouds
from the length of their shadows on the ground. If they knew that the clouds
were condensed water, they could roughly calculate the temperature lapse rate of
the atmosphere, because the temperature had to fall to about minus forty
degrees Centigrade at the altitude of the highest clouds she could see. The
erosion of landforms, the dendritic patterns and oxbows of rivers, the presence
of lakes and battered volcanic plugs all spoke of an ancient battle between
land-forming and erosional processes. Really, you could see at a glance that
this was an antique planet with a brand new civilization.
Most of the planets in the Galaxy would
be venerable and pretechnical, maybe even lifeless. A few would harbor
civilizations much older than ours. Worlds with technical civilizations just
beginning to emerge must be spectacularly rare. It was probably the only
quality fundamentally unique about the Earth.
Through lunch, the landscape slowly
turned verdant as they approached the Mississippi Valley. There was hardly any
sense of motion in modern air travel, Ellie thought. She looked at Peter's
still sleeping form; he had rejected with some indignation the prospect of an
airline lunch. Beyond him, across the aisle, was a very young human being,
perhaps three months old, comfortably nestled in its father's arms. What was an
infant's view of air travel? You go to a special place, walk into a large room
with seats in it, and sit down. The room rumbles and shakes for four hours.
Then you get up and walk off. Magically, you're somewhere else. The means of
transportation seems obscure to you, but the basic idea is easy to grasp, and
precocious mastery of the Navier-Stokes equations is not required.
It was
late afternoon when they circled Washington, awaiting permission to land. She
could make out, between the Washington Monument and the Lincoln Memorial, a
vast crowd of people. It was, she had read only an hour earlier in the Times
telefax, a massive rally of black Americans protesting economic disparities and
educational inequities. Considering the justice of their grievances, she
thought, they had been very patient. She wondered how the President would
respond to the rally and to the Vega transmission, on both of which some
official public comment would have to be made tomorrow.
*
* *
"What do you mean, Ken, `They get
out'?"
"I mean, Ms. President, that our
television signals leave this planet and go out into space."
"Just exactly how far do they
go?"
"With all due respect, Ms.
President, it doesn't work that way."
"Well, how does it work?"
"The signals spread out from the
Earth in spherical waves, a little like ripples in a pond. They travel at the
speed of light--186,000 miles a second--and essentially go on forever. The
better some other civilization's receivers are, the farther away they could be
and still pick up our TV signals. Even we could detect a strong TV transmission
from a planet going around the nearest star."
For a moment, the President stood ramrod
straight, staring out the French doors into the Rose Garden. She turned toward
der Heer. "You mean... everything?"
"Yes. Everything."
"You mean to say, all that crap on
television? The car crashes? Wrestling? The porno channels? The evening
news?"
"Everything, Ms. President."
Der Heer shook his head in sympathetic consternation.
"Der Heer, do I understand you
correctly? Does this mean that all my press conferences, my debates, my
inaugural address, are out there?"
"That's the good news, Ms.
President. The bad news is, so are all the television appearances of your
predecessor. And Dick Nixon. And the Soviet leadership. And so are a lot of nasty
things your opponent said about you. It's a mixed blessing."
"My God. Okay, go on." The
President had turned away from the French doors and was now apparently
preoccupied in examining a marble bust of Tom Paine, newly restored from the
basement of the Smithsonian Institution, where it had been consigned by the
previous incumbent.
"Look at it this way: Those few
minutes of television from Vega were originally broadcast in 1936, at the
opening of the Olympic Games in Berlin. Even though it was only shown in
Germany, it was the first television transmission on Earth with even moderate
power. Unlike the ordinary radio transmission in the thirties, those TV signals
got through our ionosphere and trickled out into space. We're trying to find
out exactly what was transmitted back then, but it'll probably take some time.
Maybe that welcome from Hitler is the only fragment of the transmission they
were able to pick up on Vega.
"So from their point of view, Hitler
is the first sign of intelligent life on Earth. I'm not trying to be ironic.
They don't know what the transmission means, so they record it and transmit it
back to us. It's a way of saying `Hello, we heard you.' It seems to me a pretty
friendly gesture."
"Then you say there wasn't any
television broadcasting until after the Second World War?"
"Nothing to speak of. There was a
local broadcast in England on the coronation of George the Sixth, a few things
like that. Big time television transmission began in the late forties. All
those programs are leaving the Earth at the speed of light. Imagine the Earth
is here"--der Heer gestured in the air--"and there's a little
spherical wave running away from it at the speed of light, starting out in
1936. It keeps expanding and receding from the Earth. Sooner or later, it
reaches the nearest civilization. They seem to be surprisingly close, only
twenty-six years for the Berlin Olympics to return to Earth. So the Vegans
didn't take decades to figure it out. They must have been pretty much tuned,
all set up, ready to go, waiting for our first television signals. They detect
them, record them, and after a while play them back to us. But unless they've
already been here--you know, some survey mission a hundred years ago--they
couldn't have known we were about to invent television. So Dr. Arroway thinks
this civilization is monitoring all the nearby planetary systems, to see if any
of its neighbors develop high technology."
"Ken, there's a lot of things here
to think about. Are you sure those--what do you call them, Vegans?--you sure
they don't understand what that television program was about?"
"Ms. President, there's no doubt
they're smart. That was a very weak signal in 1936. Their detectors have to be
fantastically sensitive to pick it up. But I don't see how they could possibly
understand what it means. They probably look very different from us. They must
have different history, different customs. There's no way for them to know what
a swastika is or who Adolf Hitler was."
"Adolf Hitler! Ken, it makes me
furious. Forty million people die to defeat that megalomaniac, and he's the
star of the first broadcast to another civilization? He's representing us. And
them. It's that madman's wildest dream come true."
She paused and continued in a calmer
voice. "You know, I never thought Hitler could manage that Hitler salute.
He never gave it straight on, it was always skewed at some wacko angle. And
then there was that fruity bent elbow salute. If anyone else had done his Heil
Hitlers so incompetently he would've been sent to the Russian front."
"But isn't there a difference? He
was only returning the salutes of others. He wasn't Heiling Hitler."
"Oh yes he was," returned the
President and, with a gesture, ushered der Heer out of the Rose Room and down a
corridor. Suddenly she stopped and regarded her Science Adviser.
"What if the Nazis didn't have
television in 1936? Then what would have happened?"
"Well, then I suppose it would be
the coronation of George the Sixth, or one of the transmissions about the New
York World's Fair in 1939, if any of them were strong enough to be received on
Vega. Or some programs from the late forties, early fifties. You know, Howdy Doody,
Milton Berle, the Army- McCarthy hearings--all those marvelous signs of
intelligent life on Earth."
"Those goddamn programs are our
ambassadors into space... the Emissary from Earth." She paused a moment to
savor the phrase. "With an ambassador, you're supposed to put your best
foot forward, and we've been sending mainly crap to space for forty years. I'd
like to see the network executives come to grips with this one. And that madman
Hitler, that's the first news they have about Earth? What are they going to
think of us?"
*
* *
As der Heer and the President entered the
Cabinet Room, those who had been standing in small groups fell silent, and some
who had been seated made efforts to stand. With a perfunctory gesture, the
President conveyed a preference for informality and casually greeted the
Secretary of State and an Assistant Secretary of Defense. With a slow and
deliberate turn of the head, she scanned the group. Some returned her gaze
expectantly. Others, detecting an expression of minor annoyance on the
President's face, averted their eyes.
"Ken, isn't that astronomer of yours
here? Arrowsmith? Arrowroot?"
"Arroway, Ms. President. She and Dr.
Valerian arrived last night. Maybe they've been held up in traffic."
"Dr. Arroway called from her hotel,
Ms. President," volunteered a meticulously groomed young man. "She
said there were some new data coming through on her telefax, and she wanted to
bring it to this meeting. We're supposed to start without her."
Michael Kitz leaned forward, his tone and
expression incredulous. "They're transmitting new data on this subject
over an open telephone, insecure, in a Washington hotel room?"
Der Heer responded so softly that Kitz
had to lean still further forward to hear. "Mike, I think there's at least
commercial encryption on her telefax. But remember there are no security
guidelines established in this matter. I'm sure that Dr. Arroway will be
cooperative if guidelines are established."
"All right, let's begin," said
the President. "This is a joint informal meeting of the National Security
Council and what for the time being we're calling the Special Contingency Task
Group. I want to impress on all of you that nothing said in this room--I mean
nothing--is to be discussed with anyone who isn't here, except for the
Secretary of Defense and the Vice President, who are overseas. Yesterday, Dr.
der Heer gave most of you a briefing on this unbelievable TV program from the
star Vega. It's the view of Dr. der Heer and others"--she looked around
the table--"that it's just a fluke that the first television program to
get to Vega starred Adolf Hitler. But it's... an embarrassment. I've asked the
Director of Central Intelligence to prepare an assessment of any national
security implications in all of this. Is there any direct threat from whoever
the hell is sending this? Are we going to be in trouble if there's some new
message, and some other country decodes it first? But first let me ask, Marvin,
does this have anything to do with flying saucers?"
The Director of Central Intelligence, an
authoritative man in late middle age, wearing steel-rimmed glasses, summarized.
Unidentified Flying Objects, called UFO's, have been of intermittent concern to
the CIA and the Air Force, especially in the '50s and '60s, in part because
rumors about them might be a means for hostile power to spread confusion or to
overload communications channels. A few of the more reliably reported incidents
turned out to be penetrations of U.S. air space or overflights of U.S. overseas
bases by high-performance aircraft from the Soviet Union or Cuba. Such
overflights are a common means of testing a potential adversary's readiness,
and the United States had more than its fair share of penetrations, and feints
at penetration, of Soviet air space. A Cuban MiG penetrating 200 miles up the
Mississippi Basin before being detected was considered undesirable publicity by
NORAD. The routine procedure had been for the Air Force to deny that any of its
aircraft were in the vicinity of the UFO sighting, and to volunteer nothing
about unauthorized penetrations, thus solidifying public mystification. At
these explanations, the Air Force Chief of Staff looked marginally
uncomfortable but said nothing.
The great majority of UFO reports, the
DCI continued, were natural objects misapprehended by the observer.
Unconventional or experimental aircraft, automobile headlights reflected off
overcast, balloons, birds, luminescent insects, even planets and stars seen
under unusual atmospheric conditions, had all been reported as UFO's. A
significant number of reports turned out to be hoaxes or real psychiatric
delusions. There had been more than a million UFO sightings reported worldwide
since the term "flying saucer" had been invented in the late '40s,
and not one of them seemed on good evidence to be connected with an
extraterrestrial visitation. But the idea generated powerful emotions, and
there were fringe groups and publications, and even some academic scientists,
that kept alive the supposed connection between UFO's and life on other worlds.
Recent millenarian doctrine included its share of saucer-borne extraterrestrial
redeemers. The official Air Force investigation, called in one of its final
incarnations Project Blue Book, had been closed down in the '60s for lack of
progress, although a low-level continuing interest had been maintained jointly
by the Air Force and the CIA. The scientific community had been so convinced
there was nothing to it that when Jimmy Carter requested the National
Aeronautics and Space Administration to make a comprehensive study of UFO's,
NASA uncharacteristically refused a presidential request.
"In fact," interjected one of
the scientists at the table, unfamiliar with the protocol in meetings such as
this, "the UFO business has made it more difficult to do serious SETI
work."
"All right." The President
sighed. "Is there anybody around this table who thinks UFO's and this
signal from Vega have anything to do with each other?" Der Heer inspected
his fingernails. No one spoke.
"Just the same, there's going to be
an awful lot of I-told-you-so's from the UFO yo-yos. Marvin, why don't you
continue?"
"In 1936, Ms. President, a very
faint television signal transmits the opening ceremonies of the Olympic Games
to a handful of television receivers in the Berlin area. It's an attempt at a
public relations coup. It shows the progress and superiority of German
technology. There were a few earlier TV transmissions, but all at very low power
levels. Actually, we did it before the Germans. Secretary of Commerce Herbert
Hoover made a brief television appearance on... April twenty-seventh, 1927.
Anyway, the German signal leaves the Earth at the speed of light, and
twenty-six years later it arrives on Vega. They sit on the signal for a few
years--whoever `they' are--and then send it back to us hugely amplified. Their
ability to receive that very weak signal is impressive, and their ability to
return it at such high power levels is impressive. There certainly are security
implications here. The electronic intelligence community, for example, would
like to know how such weak signals can be detected. Those people, or whatever
they are, on Vega are certainly more advanced than we are--maybe only a few
decades further along, but maybe much further along than that.
"They've given us no other
information about themselves--except at some frequencies the transmitted signal
doesn't show the Doppler effect from the motion of their planet around their star.
They've simplified that data reduction step for us. They're... helpful. So far,
nothing of military or any other interest has been received. All they've been
saying is that they're good at radio astronomy, they like prime numbers, and
they can return our first TV transmission back to us. It couldn't hurt for any
other nation to know that. And remember: All those other countries are
receiving this same three-minute Hitler clip, over and over again. They just
haven't figured out how to read it yet. The Russians or the Germans or someone
is likely to tumble to this polarization modulation sooner or later. My
personal impression, Ms. President--I don't know if State agrees--is that it
would be better if we released it to the world before we're accused of covering
something up. If the situation remains static--with no big change from where we
are right now-- we could think about making a public announcement, or even
releasing that three-minute film clip.
"Incidentally, we haven't been able
to find any record from German archives of what was in that original broadcast.
We can't be absolutely sure that the people on Vega haven't made some change in
the content before sending it back to us. We can recognize Hitler, all right,
and the part of the Olympic stadium we see corresponds accurately to Berlin in
1936. But if at that moment Hitler had really been scratching his mustache
instead of smiling as in that transmission, we'd have no way to know."
Ellie arrived slightly breathless, followed
by Valerian. They attempted to take obscure chairs against the wall, but der
Heer noticed and directed the President's attention to them.
"Dr. arrow-uh-way? I'm glad to see
you've arrived safely. First, let me congratulate you on a splendid discovery.
Splendid. Um, Marvin..."
"I've reached a stopping point, Ms.
President."
"Good. Dr. Arroway, we understand
you have something new. Would you care to tell us about it?"
"Ms. President, sorry to be late,
but I think we've just hit the cosmic jackpot. We've.. It's... Let me try and
explain it this way: In classical times, thousands of years ago, when parchment
was in short supply, people would write over an old parchment, making what's
called a palimpsest. There was writing under writing under writing. This signal
from Vega is, of course, very strong. As you know, there's the prime numbers,
and `underneath' them, in what's called polarization modulation, this eerie
Hitler business. But underneath the sequence of prime numbers and underneath
the retransmitted Olympic broadcast, we've just uncovered an incredibly rich
message--at least we're pretty sure it's a message. As far as we can tell, it's
been there all along. We've just detected it. It's weaker than the announcement
signal, but I'm embarrassed we didn't find it sooner."
"What does it say?" the
President asked. "What's it about?"
"We haven't the foggiest idea, Ms.
President. Some of the people at Project Argus tumbled to it early this morning
Washington time. We've been working on it all night."
"Over an open phone?" asked
Kitz.
"With standard commercial
encryption." Ellie looked a little flushed. Opening her telefax case, she
quickly generated a transparency printout and, when an overhead projector, cast
its image against a screen.
"Here's all we know up to now: We'll
get a block of information comprising about a thousand bits. There'll be a
pause, and then the same block will be repeated, bit for bit. Then there'll be
another pause, and we'll go on to the next block. It's repeated as well. The
repetition of every block is probably to minimize transmission errors. They
must think it's very important that we get whatever it is they're saying down
accurately. Now, let's call each of these blocks of information a page. Argus
is picking up a few dozen of these pages a day. But we don't know what they're
about. They're not a simple picture code like the Olympic message. This is
something much deeper and much richer. It appears to be, for the first time, information
they've generated. The only clue we have so far is that the pages seem to be
numbered. At the beginning of every page there's a number in binary arithmetic.
See this one here? And every time another pair of identical pages shows up,
it's labeled with the next higher number. Right now we're on page... 10,413.
It's a big book. Calculating back, it seems that the message began about three
months ago. We're lucky to have picked it up as early as we did."
"I was right, wasn't I?" Kitz
leaned across the table to der Heer. "This isn't the kind of message you
want to give to the Japanese or the Chinese or the Russians, is it?"
"Is it going to be easy to figure
out?" the President asked over the whispering Kitz.
"We will, of course, make out best
efforts. And it probably would be useful to have the National Security Agency
work on it also. But without an explanation from Vega, without a primer, my
guess is that we're not going to make much progress. It certainly doesn't seem
to be written in English or German or any other Earthly language. Our hope is
that the Message will come to an end, maybe on page 20,000 or page 30,000, and
then start right over from the beginning, so we'll be able to fill in the
missing parts. Maybe before the whole Message repeats, there'll be a primer, a
kind of McGuffey's Reader, that will enable us to understand the Message."
"If I may, Ms. President--"
"Ms. President, this is Dr. Peter
Valerian of the California Institute of Technology, one of the pioneers in this
field."
"Please go ahead, Dr.
Valerian."
"This is an intentional transmission
to us. They know we're here. They have some idea, from having intercepted out
1936 broadcast, of where our technology is, of how smart we are. They wouldn't
be going to all this trouble if they didn't want us to understand the Message.
Somewhere in there is the key to help us understand it. It's only a question of
accumulating all the data and analyzing it very carefully."
"Well, what do you suppose the
Message is about?"
"I don't see any way to tell, Ms.
President. I can only repeat what Dr. Arroway said. It's an intricate and
complex Message. The transmitting civilization is eager for us to receive it.
Maybe all this is one small volume of the Encyclopedia Galactica. The star Vega
is about three times more massive than the Sun and about fifty times brighter.
Because it burns its nuclear fuel so fast, it has a much shorter lifetime than
the Sun--"
"Yes. Maybe something's about to go
wrong on Vega," the Director of Central Intelligence interrupted.
"Maybe their planet will be destroyed. Maybe they want someone else to
know about their civilization before they're wiped out."
"Or," offered Kitz, "maybe
they're looking for a new place to move to, and the Earth would suit them just
fine. Maybe it's no accident they chose to send us a picture of Adolf
Hitler."
"Hold on," Ellie said,
"there are a lot of possibilities, but not everything is possible. There's
no way for the transmitting civilization to know whether we've received the
Message, much less whether we're making any progress in decoding it. If we find
the Message offensive we're not obliged to reply. And even if we did reply, it
would be twenty-six years before they received the reply, and another
twenty-six years before they can answer it. The speed of light is fast, but
it's not infinitely fast. We're very nicely quarantined from Vega. And if
there's anything that worries us about this new Message, we have decades to
decide what to do about it. Let's not panic quite yet." She enunciated
these last words while offering a pleasant smile to Kitz.
"I appreciate those remarks, Dr.
Arroway," returned the President. "But things are happening fast. Too
damn fast. And there are too many maybes. I haven't even made a public
announcement about all of this. Not even the prime numbers, never mind the
Hitler bullcrap. Now we have to think about this `book' you say they're
sending. And because you scientists think nothing of talking to each other, the
rumors are flying. Phyllis, where's that file? Here, look at these
headlines."
Brandished successively at arm's length,
they all carried the same message, with minor variations in journalistic
artistry: "Space Doc Says Radio Show from Bug-Eyed Monsters,"
"Astronomical Telegram Hints at Extraterrestrial Intelligence,"
"Voice from Heaven?" and "The Aliens Are Coming! The Aliens Are
Coming! "She let the clippings flutter to the table.
"At least the Hitler story hasn't
broken yet. I'm waiting for those headlines: `Hitler Alive and Well in Space,
U.S. Says.' And worse. Much worse. I think we'd better curtail this meeting and
reconvene later."
"If I may, Ms. President," der
Heer interrupted haltingly, with evident reluctance. "I beg your pardon,
but there are some international implications that I think have to be raised
now."
The President merely exhaled,
acquiescing.
Der Heer continued. "Tell me if I
have this right, Dr. Arroway. Every day the star Vega rises over the New Mexico
desert, and then you get whatever page of this complex transmission--whatever
it is--they happen to be sending to the Earth at the moment. Then, eight hours
later or something, the star sets. Right so far? Okay. Then the next day the
star rises again in the east, but you've lost some pages during the time you
weren't able to look at it, after it had set the previous night. Right? So it's
as if you were getting pages thirty through fifty and then pages eighty through
a hundred, and so on. No matter how patiently we observe, we're going to have
enormous amounts of information missing. Gaps. Even if the message eventually
repeats itself, we're going to have gaps."
"That's entirely right." Ellie
rose and approached an enormous globe of the world. Evidently the White House
was opposed to the obliquity of the Earth; the axis of this globe was defiantly
vertical. Tentatively, she gave it a spin. "The Earth turns. You need
radio telescopes distributed evenly over many longitudes if you don't want
gaps. Any one nation observing only from its own territory is going to dip into
the message and dip out--maybe even at the most interesting parts. Now this is
the same kind of problem that an American interplanetary spacecraft faces. It
broadcasts its findings back to Earth when it passes by some planet, but the
United States might be facing the other way at the time. So NASA has arranged
for three radio tracking stations to be distributed evenly in longitude around
the Earth. Over the decades they've performed superbly. But..." Her voice
trailed off diffidently, and she looked directly at P.L. Garrison, the NASA
Administrator. A thin, sallow, friendly man, he blinked.
"Uh, thank you. Yes. It's called the
Deep Space Network, and we're very proud of it. We have stations in the Mojave
Desert, in Spain, and in Australia. Of course, we're underfunded, but with a
little help, I'm sure we could get up to speed."
"Spain and Australia?" the
President asked.
"For purely scientific work,"
the Secretary of State was saying, "I'm sure there's no problem. However,
if this research program had political overtones, it might be a little
tricky."
American relations with both countries
had become cool of late.
"There's no question this has
political overtones," the President replied a little testily.
"But we don't have to be tied to the
surface of the earth," interjected an Air Force general. "We can beat
the rotation period. All we need is a large radio telescope in Earth
orbit."
"All right." The President
again glanced around the table. "Do we have a space radio telescope? How
long would it take to get one up? Who knows about this? Dr. Garrison?"
"Uh, no, Ms. President. We at NASA
have submitted a proposal for the Maxwell Observatory in each of the last three
fiscal years, but OMB has removed it from the budget each time. We have a
detailed design study, of course, but it would take years--well, three years
anyway--before we could get it up. And I feel I should remind everybody that
until last fall the Russians had a working millimeter and submillimeter wave
telescope in Earth orbit. We don't know why it failed, but they'd be in a
better position to send some cosmonauts up to fix it than we'd be to build and
launch one from scratch."
"That's it?" the President
asked. "NASA has an ordinary telescope in space but no big radio
telescope. Isn't there anything suitable up there already? What about the
intelligence community? National Security Agency? Nobody?"
"So, just to follow this line of
reasoning," der Heer said, "it's a strong signal and it's on lots of
frequencies. After Vega sets over the United States, there are radio telescopes
in half a dozen countries that are detecting and recording the signal. They're
not as sophisticated as Project Argus, and they probably haven't figured out
the polarization modulation yet. If we wait to prepare a space radio telescope
and launch it, the message might be finished by then, gone altogether. So
doesn't it follow that the only solution is immediate cooperation with a number
of other nations, Dr. Arroway?"
"I don't think any nation can
accomplish this project alone. It will require many nations, spread out in
longitude, all the way around the Earth. It will involve every major radio
astronomy facility now in place--the big radio telescopes in Australia, China,
India, the Soviet Union, the Middle East, and Western Europe. It would be
irresponsible if we wind up with gaps in the coverage because some critical
part of the message came when there's no telescope looking at Vega. We'll have
to do something about the Eastern Pacific between Hawaii and Australia, and
maybe something about the Mid-Atlantic also."
"Well," the Director of Central
Intelligence responded grudgingly, "the Soviets have several satellite
tracking ships that are good in S-band through X-band, the Akademik Keldysh,
for example. Or the Marshal Nedelin. If we make some arrangement with them,
they might be able to station ships in the Atlantic or the Pacific and fill in
the gaps."
Ellie pursed her lips to respond, but the
President was already talking.
"All right, Ken. You may be right.
But I say again this is moving too damn fast. There are some other things I
have to attend to right now. I'd appreciate it if the Director of Central
Intelligence and the national Security staff would work overnight on whether we
have any options besides cooperation with other countries--especially countries
that aren't our allies. I'd like the Secretary of State to prepare, in
cooperation with the scientists, a contingency list of nations and individuals
to be approached if we have to cooperate, and some assessment of the
consequences. Is some nation going to be mad at us if we don't ask them to
listen? Can we be blackmailed by somebody who promises the data and then holds
back? Should we try to get more than one country at each longitude? Work
through the implications. And for God's sake"-- her eyes moved from face
to face around the long polished table--"keep quiet about this. You too,
Arroway. We've got problems enough."
CHAPTER 7
The
Ethanol in W-3
No
credence whatever is to be given to the opinion... that the demons act as
messengers and interpreters between the gods and men to carry all petitions
from us to the gods, and to bring back to us the help of the gods. On the
contrary, we must believe them to be spirits most eager to inflict harm,
utterly alien from righteousness, swollen with pride, pale with envy, subtle in
deceit...
-AUGUSTINE
The City
of God, VIII, 22
That
Heresies should arise, we have the prophesy of Christ; but that old ones should
be abolished, we had no prediction.
-THOMAS BROWNE
Religio
Medici, I, 8 (1642)
She had
planned to meet Vaygay's plane in Albuquerque and drive him back to the Argus
facility in the Thunderbird. The rest of the Soviet delegation would have
traveled in the observatory cars. She would have enjoyed speeding to the
airport in the cool dawn air, perhaps again past an honor guard of rampant
coneys. And she had been anticipating a long and substantive private talk with
Vaygay on the return. But the new security people from the General Services
Administration had vetoed the idea. Media attention and the president's sober
announcement at the end of her press conference two weeks before had brought
enormous crowds to the isolated desert site. There was a potential for
violence, they had told Ellie. She must in future travel only in government
cars, and then only with discreetly armed escorts. Their little convoy was
wending its way toward Albuquerque at a pace so sober and responsible that she
found her right foot of its own volition depressing an imaginary accelerator on
the rubber mat before her.
It would be good to spend some time with
Vaygay again. She had last seen him in Moscow three years before, during one of
those periods in which he was forbidden to visit the West. Authorization for
foreign travel had waxed and waned through the decades in response to changing
policy fashions and Vaygay's own unpredictable behavior. Permission would be
denied him after some mild political provocation about which he seemed unable
to restrain himself, and then granted again when no one of comparable ability
could be found to flesh out one or another scientific delegation. He received
invitations from all over the world for lectures, seminars, colloquia,
conferences, joint study groups, and a full member of the Soviet Academy of
Sciences, he could afford to be a little more independent than most. He often
seemed poised precariously at the outer limits of the patience and restraint of
the governmental orthodoxy.
His full name was Vasily Gregorovich
Lunacharsky, known throughout the global community of physicists as Vaygay
after the initials of his first name and patronymic. His fluctuating and
ambiguous relations with the Soviet regime puzzled her and others in the West.
He was a distant relative of Anatoly Vasilyevich Lunacharsky, an old Bolshevik
colleague of Gorky, Lenin, and Trotsky; the elder Lunacharsky had later served
as People's Commissar for Education and as Soviet Ambassador to Spain until his
death in 1933. Vaygay's mother had been Jewish. He had, it was said, worked on
Soviet nuclear weapons, although surely he was too young to have played much of
a role in fashioning the first Soviet thermonuclear explosion.
His institute was well staffed and well
equipped, and his scientific productivity was prodigious, indicating at most
infrequent distractions by the committee for State Security. Despite the ebb
and flow of permission for foreign travel, he had been a frequent attendee at
major international conferences including the "Rochester" symposia on
high-energy physics, the "Texas" meeting on relativistic
astrophysics, and the informal but occasionally influential "Pugwash"
scientific gatherings on ways of reducing international tension.
In the 1960s, she had been told, Vaygay
visited the University of California at Berkeley and was delighted with the
proliferation of irreverent, scatological, and politically outrageous slogans
imprinted on inexpensive buttons. You could, she recalled with faint nostalgia,
size up someone's most pressing social concerns at a glance. Buttons were also
popular and fiercely traded in the Soviet Union, but usually they celebrated
the "Dynamo" soccer team, or one of the successful spacecraft of the
Luna series, which had been the first spacecraft to land on the Moon. The
Berkeley buttons were different. Vaygay had bought dozens of them, but
delighted in wearing one in particular. It was the size of his palm and read,
"Pray for Sex." He even displayed it at scientific meetings. When
asked about its appeal, he would say, "In your country, it is offensive in
only one way. In my country, it is offensive in two independent ways." If
pressed further, he would only comment that his famous Bolshevik relative had
written a book on the place of religion in a socialist society. Since then, his
English had improved enormously--much more than Ellie's Russian--but his
propensity for wearing offensive lapel buttons had, sadly, diminished.
Once, during a vigorous discussion on the
relative merits of the two political systems, Ellie had boasted that she had
been free to march in front of the White House protesting American involvement
in the Vietnam War. Vaygay replied that in the same period he had been equally
free to march in front of the Kremlin protesting American involvement in the
Vietnam War.
He had never been inclined, say, to
photograph the garbage scows burdened with malodorous refuse and squawking
seagulls lumbering in front of the Statue of Liberty, as another Soviet
scientist had when for fun she had escorted him on the Staten Island ferry
during a break in a meeting in New York City. Nor had he, as had some of his
colleagues, ardently photographed the tumble-down shanties and corrugated metal
huts of the Puerto Rican poor during a bus excursion from a luxurious
beachfront hotel to the Arecibo Observatory. To whom did they submit these
pictures? Ellie wondered. She conjured up some vast KGB library dedicated to
the infelicities, injustices, and contradictions of capitalist society. Did it
warm them, when disconsolate with some of the failures of Soviet society, to
browse through the fading snapshots of their imperfect American cousins?
There were many brilliant scientists in
the Soviet Union who, for unknown offenses, had not been permitted out of
Eastern Europe in decades. Konstantinov, for example, had never been to the
West until the mid-1960s. When, at an international meeting in Warsaw--over a
table encumbered with dozens of depleted Azerbaijani brandy snifters, their
missions completed--Konstantinov was asked why, he replied, "Because the
bastards know, they let me out, I never come back." Nevertheless, they had
let him out, sure enough, during the thaw in scientific relations between the
two countries in the late '60s and early '70s, and he had come back every time.
But now they let him out no more, and he was reduced to sending his Western
colleagues New Year's cards in which he portrayed himself forlornly
cross-legged, head bowed, seated on a sphere below which was the Schwarzschild
equation for the radius of a black hole. He was in a deep potential well, he
would tell visitors to Moscow in the metaphors of physics. They would never let
him out again.
In response to questions, Vaygay would
say that the official Soviet position was that the Hungarian revolution of 1956
had been organized by cryptofascists, and that the Prague Spring of 1968 was
brought about by an unrepresentative anti-socialist group in the leadership.
But, he would add, if what he had been told was mistaken, if these were genuine
popular uprisings, then his country had been wrong in suppressing them. On
Afghanistan he did not even bother quoting the official justifications. Once in
his office at the Institute he had insisted on showing Ellie his personal
shortwave radio, on which were frequencies labeled London and Paris and Washington,
neatly spelled out in Cyrillic letters. He was free, he told her, to listen to
the propaganda of all nations.
There had been a time when many of his
fellows had surrendered to national rhetoric about the yellow peril.
"Imagine the entire frontier between China and the Soviet Union occupied
by Chinese soldiers, shoulder to shoulder, an invading army," one of them
requested, challenging Ellie's powers of imagination. They were standing around
the samovar in the Director's office at the Institute. "How long would it
be, with the present Chinese birthrate, before they all passed over the
border?" And the answer was pronounced, in an unlikely mix of dark
foreboding and arithmetic delight, "Never." William Randolph Hearst
would have felt at home. But not Lunacharsky. Stationing so many Chinese
soldiers on the frontier would automatically reduce the birthrate, he argued;
their calculations were therefore in error. He had phrased it as thought the
misuse of mathematical models was the subject of his disapproval, but few
mistook his meaning. In the worst of the Sino-Soviet tensions, he had never, so
far as Ellie knew, allowed himself to be swept up in the endemic paranoia and
racism.
Ellie loved the samovars and could
understand the Russian affection for them. Their Lunakhod, the successful
unmanned lunar rover that looked like a bathtub on wire wheels, seemed to her
to have a little samovar technology somewhere in its ancestry. Vaygay had once
taken her to see a model of Lunakhod in a sprawling exhibition park outside of
Moscow on a splendid June morning. There, next to a building displaying the
wares and charms of the Tadzhik Autonomous Republic, was a great hall filled to
the rafters with full-scale models of Soviet civilian space vehicles. Sputnik
1, the first orbital spacecraft; Sputnik 2, the first spacecraft to carry an
animal, the dog Laika, who died in space; Luna 2, the first spacecraft to reach
another celestial body; Luna 3, the first spacecraft to photograph the far side
of the Moon; Venera 7, the first spacecraft to land safely on another planet;
and Vostok 1, the first manned spacecraft, that carried Hero of the Soviet
Union Cosmonaut Yuri A. Gagarin on a single orbit of the Earth. Outside,
children were using the fins of the Vostok launch booster as slides, their
pretty blond curls and red Komsomol neckerchiefs flaring as, to much hilarity,
the descended to land. Zemlya, it was called in Russian. The large Soviet
island in the Arctic Sea was called Novaya Zemlya, New Land. It was there in
1961 that they had detonated a fifty- eight-megaton thermonuclear weapon, the
largest single explosion so far contrived by the human species. But on that
spring day, with the vendors hawking the ice cream in which Moscovites take so
much pride, with families on outings and a toothless old man smiling at Ellie
and Lunacharsky as if they were lovers, the old land had seemed nice enough.
In her infrequent visits to Moscow or
Leningrad, Vaygay would often arrange the evenings. A group of six or eight of
them would go to the Bolshoi or the Kirov ballet. Lunacharsky somehow would
arrange for the tickets. She would thank her hosts for the evening, and
they--explaining that it was only in the company of foreign visitors that they
themselves were able to attend such performances--would thank her. Vaygay would
only smile. He never brought his wife, and Ellie had never met her. She was, he
said, a physician who was devoted to her patients. Ellie had asked him what his
greatest regret was, because his parents had not, as they had once
contemplated, emigrated to America. "I have only one regret," he had
said in his gravelly voice. "My daughter married a Bulgarian."
Once he arranged a dinner at a Caucasian
restaurant in Moscow. A professional toastmaster, or tamada, named Khaladze had
been engaged for the evening. The man was a master of this art form, but
Ellie's Russian was bad enough that she was obliged to ask for most of the
toasts to be translated. He turned to her and, foreshadowing the rest of the evening,
remarked, "We call the man who drinks without a toast an alcoholic."
An early and comparatively mediocre toast had ended "To peace on all
planets," and Vaygay had explained to her that the word mir meant world,
peace and a self-governing community of peasant households that went back to
ancient times. They had talked about whether the world had been more peaceful
when its largest political units had been no larger than villages. "Every
village is a planet," Lunacharsky had said, his tumbler held high.
"And every planet a village," she had returned.
Such gatherings would be a little
raucous. Enormous quantities of brandy and vodka would be drunk, but no one
ever seemed seriously inebriated. They would emerge noisily from the restaurant
at one or two in the morning and try, often vainly, to find a taxicab. Several
times he had escorted her on foot a distance of five or six kilometers from the
restaurant back to her hotel. He was attentive, a little avuncular, tolerant in
his political judgments, fierce in his scientific pronouncements. Although his
sexual escapades were legendary among his colleagues, he never permitted
himself so much as a good-night kiss with Ellie. This had always distressed her
a little, although his affection for her was plain.
There were many women in the Soviet
scientific community, proportionately more so than in the United States. But
they tended to occupy menial to middle-level positions, and male Soviet
scientists, like their American counterparts, were puzzled about a pretty woman
with evident scientific competence who forcefully expressed her views. Some
would interrupt her or pretend not to hear her. Then, Lunacharsky would always
lean over and ask in a louder voice than usual, "What did you say, Dr.
Arroway? I didn't quite manage to hear." The others would then fall silent
and she would continue about doped gallium arsenide detectors, or the ethanol
content of the galactic cloud W-3. The quantity of 200-proof alcohol in this
single interstellar cloud was more than enough to maintain the present
population of the Earth, if every adult were a dedicated alcoholic, for the age
of the solar system. The tamada had appreciated the remark. In their subsequent
toasts, they had speculated on whether other forms of life would be intoxicated
by ethanol, whether public drunkenness was a Galaxy-wide problem, and whether a
toastmaster on any other world could be as skillful as our Trofim Sergeivich
Khaladze.
*
* *
They arrived at the Albuquerque airport
to discover that, miraculously, the commercial flight from New York with the
Soviet delegation aboard had landed a half hour early. Ellie found Vaygay at an
airport souvenir shop negotiating the price of some trinket. He must have seen
her out of the corner of his eye. Without turning to face her, he lifted a
finger: "One second, Arroway. Nineteen ninety-five?" he continued,
addressing the elaborately disinterested sales clerk. "I saw the identical
set in New York yesterday for seventeen fifty." She edged closer and observed
Vaygay spreading a set of holographic playing cards displaying nudes of both
sexes in poses, now considered merely indecorous, that would have scandalized
the previous generation. The clerk was making halfhearted attempts to gather
the cards up as Lunacharsky made vigorous and successful efforts to cover the
counter with the cards. Vaygay was winning. "I'm sorry, sir, I don't set
prices. I only work here," complained the clerk.
"You see the deficiencies of a
planned economy," Vaygay said to Ellie while proffering a twenty- dollar
bill to the clerk. "In a true free-enterprise system, I probably could
purchase this for fifteen dollars. Maybe twelve ninety-five. Don't look at me
in that way, Ellie. This is not for me. With the jokers there are fifty-four
cards here. Each of them will make a nice gift for some worker at my
institute."
She smiled and took his arm. "It's
good to see you again, Vaygay."
"A rare pleasure, my dear."
*
* *
On the drive to Socorro, by mutual but
unspoken agreement, they mainly talked pleasantries. Valerian and the driver,
one of the new security people, were in the front seats. Peter, not a voluble
man even in ordinary circumstances, was content to lean back and listen to
their conversation, which touched only tangentially on the issue the Soviets
had come to discuss: the third level of the palimpsest, the elaborate, complex,
and still undecoded Message they were collectively receiving. The U.S.
government had, more or less reluctantly, concluded that Soviet participation
was essential. This was true especially because the signal from Vega was so
intense that even modest radio telescopes could detect it. Years before, the
Soviets had prudently deployed a number of small telescopes across the entire
Eurasian land mass, stretching 9,000 kilometers over the surface of the Earth,
and recently had completed a major radio observatory near Samarkand. In
addition, Soviet oceangoing satellite tracking vessels were patrolling both the
Atlantic and the Pacific.
Some of the Soviet data were redundant, because observatories in
Japan, China, India, and Iraq were recording those signals as well. Indeed,
every substantial radio telescope in the world that had Vega in its sky was
listening. Astronomers in Britain, France, the Netherlands, Sweden, Germany,
and Czechoslovakia, in Canada and Venezuela and Australia, were recording small
pieces of the Message, following Vega from starrise to starset. In some
observatories the detection equipment was not sensitive enough even to make out
the individual pulses. They listened anyway to an audio blur. Each of these
nations had a piece of the jigsaw puzzle, because, as Ellie had reminded Kitz,
the Earth turns. Every nation tried to make some sense out of the pulses. But
it was difficult. No one could tell even if the Message was written in symbols
or in pictures.
It was perfectly conceivable that they
would not decrypt the Message until it cycled back to page one--if it ever
did--and began again with the introduction, the primer, the decoding key. Maybe
it was a very long message, Ellie thought as Vaygay idly compared taiga with
scrub desert; maybe it wouldn't cycle back for a hundred years. Or maybe there
was no primer. Maybe the Message (all over the planet, the word was beginning
to be capitalized) was an intelligence test, so those worlds too stupid to
decrypt it would be unable to misuse its contents. It suddenly struck her what
a humiliation she would feel for the human species if in the end they failed to
understand the Message. The moment the Americans and the Soviets decided to
collaborate and the Memorandum of Agreement was solemnly signed, every other
nation with a radio telescope had agreed to cooperate. There was a kind of
World Message Consortium, and people were actually talking in those terms. They
needed one another's data and brain power if the Message was to be decrypted.
The newspapers were full of little else.
The pitiful few facts that were known--the prime numbers, the Olympic
broadcast, the existence of a complex message--were endlessly reviewed. It was
hard to find anyone on the planet who had not in one way or another heard about
the Message from Vega.
Religious sects, established and
marginal, and some newly invented for the purpose, were dissecting the
theological implications of the Message. Some thought it was from God, and some
from the Devil. Astonishingly, some were even unsure. There was a nasty
resurgence of interest in Hitler and the Nazi regime, and Vaygay mentioned to
her that he had found a total of eight swastikas in the advertisements in that
Sunday's New York Times Book Review. Ellie replied that eight was about par,
but she knew she was exaggerating; some weeks there were only two or three. A
group that called themselves "Spacaryans" offered definitive evidence
that flying saucers had been invented in Hitler Germany. A new
"unmongrelized" race of Nazis had grown up on Vega and was now ready
to put things right on Earth.
There were those who considered listening
to the signal an abomination and who urged the observatories to stop; there
were those who considered it a Token of Advent and urged the construction of
still larger radio telescopes, some of them in space. Some cautioned against
working with the Soviet data, on grounds that they might be falsified or
fraudulent, although in the longitudes of overlap they agreed well with the
Iraqi, Indian, Chinese, and Japanese data. And there were those who sensed a
change in the world political climate and contended that the very existence of
the Message, even if it was never decrypted, was exercising a steadying
influence on the quarrelsome nation states. Since the transmitting civilization
was clearly more advanced than ours, and because it clearly--at least as of
twenty-six years ago--had not destroyed itself, it followed, some argued, that
technological civilizations did not inevitably self-destruct. In a world
gingerly experimenting with major divestitures of nuclear weapons and their
delivery systems, the Message was taken by whole populations as a reason for
hope. Many considered the Message the best news in a long time. For decades,
young people had tried not to think too carefully about tomorrow. Now, there
might be a benign future after all.
Those with predispositions favoring such
cheerful prognoses sometimes found themselves edging uncomfortably toward
ground that had been occupied for a decade by the chiliastic movement. Some
chiliasts held that the imminent arrival of the Third Millennium would be
accompanied by the return of Jesus or Buddha or Krishna or The Prophet, who
would establish on Earth a benevolent theocracy, severe in its judgment of
mortals. Perhaps this would presage the mass celestial Ascent of the Elect. But
there were other chiliasts, and there were far more of these, who held that the
physical destruction of the world was the indispensable prerequisite for the
Advent, as had been unerringly foretold in various otherwise mutually
contradictory ancient prophetic works. The Doomsday Chiliasts were uneasy with
the whiff of world community in the air and troubled by the steady annual
decline in the global stockpiles of strategic weapons. The most readily
available means for fulfilling the central tenet of their faith was being
disassembled day by day. Other candidate catastrophes--overpopulation,
industrial pollution, earthquakes, volcanic explosions, greenhouse warming, ice
ages, or cometary impact with the Earth--were too slow, too improbably, or
insufficiently apocalyptic for the purpose.
Some chiliast leaders had assured mass
rallies of devoted followers that, except for accidents, life insurance was a
sign of wayward faith; that, except for the very elderly, to purchase a
gravesite or make funeral arrangements in other than urgent necessity was a
flagrant impiety. All who believed would be raised bodily to heaven and would
stand before the throne of God in only a few years.
Ellie knew that Lunacharsky's famous
relative had been that rarest of beings, a Bolshevik revolutionary with a
scholarly interest in the world's religions. But the attention Vaygay directed
to the growing worldwide theological ferment was apparently muted. "The
main religious question in my country," he said, "will be whether the
Vegans have properly denounced Leon Trotsky."
*
* *
As they approached the Argus site, the
roadside became dense with parked automobiles, recreation vehicles, campers,
tents, and great crowds of people. At night the once tranquil Plains of San
Augustin were illuminated by campfires. The people along the highway were by no
means all well-to-do. She noticed two young couples. The men were in T-shirts
and worn jeans, belted around their hips, swaggering a little as they had been
taught by their seniors upon entering high school, talking animatedly. One of
them pushed a ragged stroller in which sat a carefree boy about two years old.
The women followed behind their husbands, one of them holding the hand of a
toddler new to the human art of walking, and the other cantilevered forward
with what in another month or two would be a further life born on this obscure
planet.
There were mystics from sequestered
communities outside Taos who used psilocybin as a sacrament, and nuns from a
convent near Albuquerque who used ethanol for the same purpose. There were
leather-skinned, crinkly-eyed men who had spent their whole lives under the
open sky, and bookish, sallow- faced students from the University of Arizona in
Tucson. There were silk cravats and burnished silver string ties sold by Navajo
entrepreneurs at exorbitant prices, a small reversal of the historical
commercial relations between whites and Native Americans. Chewing tobacco and
bubble gum were being vigorously deployed by enlisted men on leave from
Davis-Monthan Air Force Base. An elegantly attired white-haired man in a $900
suit with a color-coordinated Stetson was, just possibly, a rancher. There were
people who lived in barracks and skyscrapers, adobe hovels, dormitories,
trailer parks. Some came because they had nothing better to do, some because
they wanted to tell their grandchildren that they had been there. Some arrived
hoping for failure, others were confident of witnessing a miracle. Sounds of
quiet devotion, raucous hilarity, mystic ecstasy, and subdued expectation rose
from the crowd into the brilliant afternoon sunlight. A few heads glanced
incuriously at the passing caravan of automobiles, each marked U.S. GOVERNMENT
INTERAGENCY MOTOR POOL.
Some people were lunching on the
tailgates of hatchbacks; others were sampling the wares of vendors whose
wheeled emporia were boldly lettered SNACKMOBILE or SPACE SOUVENIRS. There were
long lines in front of small sturdy structures with maximum occupancy of one
person that the project had thoughtfully provided. Children scampered among the
vehicles, sleeping bags, blankets, and portable picnic tables almost never
chided by the adults--except when they came too close to the highway or to the
fence nearest Telescope 61, where a group of shaven-headed, kowtowed,
saffron-robed young adults were solemnly intoning the sacred syllable
"Om." There were posters with imagined representations of
extraterrestrial beings, some made popular by comic books or motion pictures.
One read, "There Are Aliens Among Us." A man with golden earrings was
shaving, using the side-view mirror of someone's pickup truck, and a
black-haired woman in a serape raised a cup of coffee in salute as the convoy
sped by.
As they drove toward the new main gate,
near Telescope 101, Ellie could see a young man on a jerrbuilt platform
importuning a sizable crowd. He was wearing a T-shirt that depicted the Earth
being struck by a bolt of celestial lightning. Several others in the crowd, she
noticed, were wearing the same enigmatic adornment. At Ellie's urging, once
through the gate, they pulled off the side of the road, rolled down the window,
and listened. The speaker was turned away from them and they could see the
faces in the crowd. These people are deeply moved, Ellie thought to herself.
He was in mid-oration: "...and
others say there's been a pact with the Devil, that the scientists have sold
their souls. There are precious stones in every one of these telescopes."
He waved his hand toward Telescope 101. "Even the scientists admit that.
Some people say it's the Devil's part of the bargain."
"Religious hooliganism,"
Lunacharsky muttered darkly, his eyes yearning for the open road before them.
"No, no. Let's stay," she said.
A half smile of wonderment was playing on her lips.
"There are some people--religious
people, God-fearing people--who believe this Message comes from beings in
space, entities, hostile creatures, aliens who want to harm us, enemies of Man.
" He fairly shouted this last phrase, and then paused for effect.
"But all of you are wearied and disgusted by the corruption, the decay in
this society, a decay brought on by unthinking, unbridled, ungodly technology.
I don't know which of you is right. I can't tell you what the Message means, or
who it's from. I have my suspicions. We'll know soon enough. But I do know the
scientists and the politicians and the bureaucrats are holding out on us. They
haven't told us all they know. They're deceiving us, like they always do. For
too long, O God, we have swallowed the lies they feed us, the corruption they
bring."
To Ellie's astonishment a deep rumbling
chorus of assent rose from the crowd. He had tapped some well of resentment she
had only vaguely apprehended.
"These scientists don't believe
we're the children of God. They think we're the offspring of apes. There are
known communists among them. Do you want people like that to decide the fate of
the world?"
The crowd responded with a thunderous
"No!"
"Do you want a pack of unbelievers
to do the talking to God?"
"No!" they roared again.
"Or the Devil? They are bargaining
away our future with monsters from an alien world. My brothers and sisters,
there is an evil in this place."
Ellie had thought the orator was unaware
of their presence. But now he half turned and pointed through the cyclone fence
directly at the idling convoy.
"They don't speak for us! They don't
represent us! They have no right to parley in our name!"
Some of
the crowd nearest the fence began jostling and rhythmically pushing. Both
Valerian and the driver became alarmed. The engines had been left running, and
in a moment they accelerated from the gate toward the Argus administration
building, still many miles distant across the scrub desert. As they pulled
away, over the sound of squealing tires and the murmur of the crowd, Ellie
could hear the orator, his voice ringing clearly.
"The evil in this place will be
stopped. I swear it."
CHAPTER 8
Random
Access
The
theologian may indulge the pleasing task of describing Religion as she
descended from Heaven, arrayed in her native purity. A more melancholy duty is
imposed on the historian. He must discover the inevitable mixture of error and
corruption which she contracted in a long residence upon Earth, among a weak
and degenerate race of beings.
-Edward Gibbon
The
Decline and Fall of the Roman Empire, XV
Ellie
ignored random access and advanced sequentially through the television
stations. Lifestyles of the Mass Murderers and You Bet Your Ass were on
adjacent channels. It was clear at a glance that the promise of the medium
remained unfulfilled. There was a spirited basketball game between the Johnson
City Wildcats and the Union-Endicott Tigers; the young men and women players
were giving their all. On the next channel was an exhortation in Parsi on
proper versus improper observances of Ramadan. Beyond was one of the locked
channels, this one apparently devoted to universally abhorrent sexual
practices. She next came upon one of the premier computer channels, dedicated
to fantasy role-playing games and now fallen on hard times. Accessed to your
home computer, it offered a single entry into a new adventure, today's
apparently called Galactic Gilgamesh, in hopes that you would find it
sufficiently attractive to order the corresponding floppy disk on one of the
vending channels. Proper electronic precautions were taken so you could not
record the program during your single play. Most of these video games, she
thought, were desperately flawed attempts to prepare adolescents for an unknown
future.
Her eye was caught by an earnest
anchorman from one of the old networks discussing with unmistakable concern
what was described as an unprovoked attack by North Vietnamese torpedo boats on
two destroyers of the U.S. Seventh Fleet in the Gulf of Tonkin, and the request
by the President of the United States that she be authorized to "take all
necessary measures" in response. The program was one of her few favorites,
Yesterday's News, reruns of network news shows of earlier years. The second
half of the program consisted of a point-by-point dissection of the
misinformation in the first half, and the obdurate credulity of the news
organizations before any claims by any administration, no matter how
unsupported and self-serving. It was one of several television series produced
by an organization called REALI-TV-- including Promises, Promises, devoted to
follow-up analyses of unfulfilled campaign pledges at local, state, and national
levels, and Bamboozles and Baloney, a weekly debunking of what were said to be
widespread prejudices, propaganda, and myths. The date at the bottom of the
screen was August 5, 1964, and a wave of recollection--nostalgia was not the
appropriate word--about her days in high school washed over her. She pressed
on.
Cycling through the channels, she rushed
past an Oriental cooking series devoted this week to the hibachi, an extended
advertisement for the first generation of general-purpose household robots by
Hadden Cybernetics, the Soviet Embassy's Russian-language news and comment
program, several children's and news frequencies, the mathematics station
displaying the dazzling computer graphics of the new Cornell analytic geometry
course, the local apartments and real estate channel, and a tight cluster of
execrable daytime serials until she came upon the religious networks, where,
with sustained and general excitement, the Message was being discussed.
Attendance in churches had soared all
over America. The Message, Ellie believed, was a kind of mirror in which each
person sees his or her own beliefs challenged or confirmed. It was considered a
blanket vindication of mutually exclusive apocalyptic and eschatological
doctrines. In Peru, Algeria, Mexico, Zimbabwe, Ecuador, and among the Hopi,
serious public debates took place on whether their progenitor civilizations had
come from space; supporting opinions were attacked as colonialist. Catholics
debated the extraterrestrial state of grace. Protestants discussed possible
earlier missions of Jesus to nearby planets, and of course a return to Earth.
Muslims were concerned that the Message might contravene the commandment
against graven images. In Kuwait, a man arose who claimed to be the Hidden Imam
of the Shiites. Messianic fervor had arisen among the Sossafer Chasids. In
other congregations of Orthodox Jews there was a sudden renewal of interest in
Astruc, a zealot fearful that knowledge would undermine faith, who in 1305 had
induced the Rabbi of Barcelona, the leading Jewish cleric of the time, to
forbid the study of science or philosophy by those under twenty-five, on pain
of excommunication. Similar currents were increasingly discernible in Islam. A
Thessalonian philosopher, auspiciously named Nicholas Polydemos, was attracting
attention with a set of passionate arguments for what he called the
"reunification" of religions, governments, and peoples of the world.
Critics began by questioning the "re."
UFO groups had organized round-the-clock
vigils at Brooks Air Force Base, near San Antonio, where the perfectly
preserved bodies of four occupants of a flying saucer that had crash-landed in
1947 were said to be languishing in freezers; the extraterrestrials were
reputed to be one meter tall and to have tiny flawless teeth. Apparitions of
Vishnu had been reported in India, and of the Amida Buddha in Japan; miraculous
cures by the hundreds were announced at Lourdes; a new Bodhisattva proclaimed
herself in Tibet. A novel cargo cult was imported from New Guinea into
Australia; it preached the construction of crude radio telescope replicas to
attract extraterrestrial largesse. The World Union of Free Thinkers called the
Message a disproof of the existence of God. The Mormon Church declared it a
second revelation by the angel Moroni.
The Message was taken by different groups
as evidence for many gods or one god or none. Chiliasm was rife. There were
those who predicted the Millennium in 1999--as a cabalistic inversion of 1666,
the year that Sabbatai Zevi had adopted for his millennium; others chose 1996
or 2033, the presumed two thousandth anniversaries of the birth or death of
Jesus. The Great Cycle of the ancient Maya was to be completed in the year
2011, when--according to this independent cultural tradition--the cosmos would
end. The convolution of the Mayan prediction with Christian millenarianism was
producing a kind of apocalyptic frenzy in Mexico and Central America. Some
chiliasts who believed in the earlier dates had begun giving away their wealth
to the poor, in part because it would soon be worthless anyway and in part as
earnest money to God, a bribe for the Advent.
Zealotry, fanaticism, fear, hope, fervent
debate, quiet prayer, agonizing reappraisal, exemplary selflessness, closed-minded
bigotry, and a zest for dramatically new ideas were epidemic, rushing
feverishly over the surface of the tiny planet Earth. Slowly emerging from this
mighty ferment, Ellie thought she could see, was a dawning recognition of the
world as one thread in a vast cosmic tapestry. Meanwhile, the Message itself
continued to resist attempts at decryption.
On the vilification channels, protected
by the First Amendment, she, Vaygay, der Heer, and to a lesser extent Peter
Valerian were being castigated for a variety of offenses, including atheism,
communism, and hoarding the Message for themselves. In her opinion, Vaygay
wasn't much of a Communist, and Valerian had a deep, quiet, but sophisticated
Christian faith. If they were lucky enough to come anywhere near cracking the
Message, she was willing to deliver it personally to this sanctimonious twit of
a television commentator. David Drumlin, however, was being made out as the
hero, the man who had really decrypted the prime number and Olympic broadcasts;
he was the kind of scientist we needed more of. She sighed and changed the
channel once again.
She had come around to TABS, the
Turner-American Broadcasting System, the only survivor of the large commercial
networks that had dominated television broadcasting in the United States until
the advent of widespread direct satellite broadcasting and 180-channel cable.
On this station, Palmer Joss was making one of his rare television appearances.
Like most Americans, Ellie instantly recognized his resonant voice, his
slightly unkempt good looks, and the discoloration beneath his eyes that made
you think he never slept for worrying about the rest of us.
"What has science really done for
us?" he declaimed. "Are we really happier? I don't mean just
holographic receivers and seedless grapes. Are we fundamentally happier? Or do
the scientists bribe us with toys, with technological trinkets, while they
undermine our faith?"
Here was a man, she thought, who was
hankering for a simpler age, a man who has spent his life attempting to
reconcile the irreconcilable. He has condemned the most flagrant excesses of
pop religion and thinks that justifies attack on evolution and relativity. Why
not attack the existence of the electron? Palmer Joss never saw one, and the Bible
is innocent of electromagnetism. Why believe in electrons? Although she had
never before listened to him speak, she was sure that sooner or later he would
come around to the Message, and he did:
"The scientists keep their findings
to themselves, give us little bits and pieces--enough to keep us quiet. They
think we're too stupid to understand what they do. They give us conclusions
without evidence, findings as if they were holy writ and not speculations,
theories, hypotheses--what ordinary people would call guesses. They never ask
if some new theory is as good for people as the belief that it tries to
replace. They overestimate what they know and underestimate what we know. When
we ask for explanations, they tell us it takes years to understand. I know
about that, because in religion also there are things that take years to
understand. You can spend a lifetime and never come close to understanding the
nature of Almighty God. But you don't see the scientists coming to religious
leaders to ask them about their years of study and insight and prayer. They
never give us a second thought, except when they mislead us and deceive us.
"And now they say they have a
Message from the star Vega. But a star can't send a message. Someone is sending
it. Who? Is the purpose of the Message divine or satanic? When they decode the
Message, will it end `Yours truly, God'... or `Sincerely, the Devil'? When the
scientists get around to telling us what's in the Message, will they tell us
the whole truth? Or will they hold something back because they think we can't
understand it, or because it doesn't match what they believe? Aren't these the
people who taught us how to annihilate ourselves?
"I tell you, my friends, science is
too important to be left to the scientists. Representatives of the major faiths
ought to be part of the process of decoding. We ought to be looking at the raw
data. That's what the scientists call it, `raw.' Otherwise... otherwise, where
will we be? They'll tell us something about the Message. Maybe what they really
believe. Maybe not. And we'll have to accept it, whatever they tell us. There
are some things the scientists know about. There are other things--take my word
for it--they know nothing about. Maybe they've received a message from another
being in the heavens. Maybe not. Can they be sure the Message isn't a Golden
Calf? I don't think they'd know one if they saw one. These are the folks who
brought us the hydrogen bomb. Forgive me, Lord, for not being more grateful to
these kind souls.
"I have seen God face to face. I
worship Him, trust Him, love Him, with my entire soul, with all of my being. I
don't think anyone could believe more than I do. I can't see how the scientists
could believe in science more than I do in God.
"They're ready to throw away their
`truths' when a new idea comes round. They're proud of it. They don't see any
end to knowing. They imagine we're locked in ignorance until the end of time,
that there's no certainty anywhere in nature. Newton overthrew Aristotle.
Einstein overthrew Newton. Tomorrow someone else'll overthrow Einstein. As soon
as we get to understand one theory, there's another one in its place. I
wouldn't mind so much if they had warned us that the old ideas were tentative.
Newton's law of gravitation, they called it. They still call it that. But if it
was a law of nature, how could it be wrong? How could it be overthrown? Only
God can repeal the laws of nature, not the scientists. They just got it wrong.
If Albert Einstein was right, Isaac Newton was an amateur, a bungler.
"Remember, the scientists don't
always get it right. They want to take away our faith, our beliefs, and they
offer us nothing of spiritual value in return. I do not intend to abandon God
because the scientists write a book and say it is a message from Vega. I will
not worship science. I will not defy the First Commandment. I will not bow down
before a Golden Calf."
*
* *
When he was a very young man, before he
became widely known and admired, Palmer Joss had been a carnival roustabout. It
was mentioned in his profile in Timesweek; it was no secret. To help make his
fortune he had arranged for a map of the Earth in cylindrical projection to be
painstakingly tattooed on his torso. He would exhibit himself at county fairs
and sideshows from Oklahoma to Mississippi, one of the stragglers and remnants
of a more vigorous age of rural itinerant entertainment. In the expanse of blue
ocean were the four gods of the winds, their cheeks puffing forth prevailing
westerlies and nor'easters. By flexing his pectorals, he could make Boreas
swell along with the Mid-Atlantic. Then, he would declaim to the astonished
onlookers from Book 6 of Ovid's Metamorphoses:
Monarch of Violence, rolling on clouds, I
toss wide waters, and I fell huge trees... Possessed of daemon-rage, I
penetrate, Sheer to the utmost caverns of old Earth; And straining, up from
those unfathomed deeps, Scatter the terror-stricken shades of Hell; And hurl
death-dealing earthquakes throughout the world!
Fire and brimstone from old Rome. With
some help from his hands, he would demonstrate continental drift, pressing West
Africa against South America, so they joined, like the pieces of a jigsaw
puzzle, almost perfectly at the longitude of his navel. They billed him as
"Geos, the Earth Man."
Joss was a great reader and, being
unencumbered by a formal education past grade school, had not been told that
science and classics were unseemly fare for ordinary people. Aided by his
casual, rumpled good looks, he would ingratiate himself with librarians in the
towns along the carnival's trek and ask what serious books he should read. He
wanted, he told them, to improve himself. Dutifully, he read about winning
friends and investing in real estate and intimidating your acquaintances
without their noticing, but felt these books somehow shallow. By contrast, in
ancient literature and in modern science he though he detected quality. When
there were layovers, he would haunt the local town or county library. He taught
himself some geography and history. They were job-related, he told Elvira the
Elephant Girl, who questioned him closely on his absences. She suspected him of
compulsive dalliances--a librarian in every port, she once said--but she had to
admit his professional patter was improving. The contents were too highbrow,
but the delivery was down home. Surprisingly, Joss's little stall began to make
money for the carnival.
His back to the audience, he was one day
demonstrating the collision of India with Asia and the resulting crinkling up
of the Himalayas, when, out of a gray but rainless sky, a lightning bolt
flashed and struck him dead. There had been twisters in southeastern Oklahoma,
and the weather was unusual throughout the South. He had a perfectly lucid
sense of leaving his body--pitifully crumbled on the sawdust- covered planking,
being regarded with caution and something akin to awe by the small crowd--and
rising, rising as if through a long dark tunnel, slowly approaching a brilliant
light. And in the radiance he gradually discerned a figure of heroic, indeed of
Godlike, proportions.
When he awoke he found a part of himself
disappointed to be alive. He was lying on a cot in a modestly furnished
bedroom. Leaning over him was the Reverend Billy Jo Rankin, not the present
incumbent of that name, but his father, a venerable surrogate preacher of the
third quarter of the twentieth century. In the background, Joss thought he
could see a dozen hooded figures singing the Kyrie Eleison. But he couldn't be
sure.
"Am I gonna live or die?" the
young man whispered.
"My boy, you're gonna do both,"
the Reverend Mr. Rankin replied.
Joss was soon overcome with a poignant
sense of discovery at the existence of the world. But in a way that was
difficult for him to articulate, this feeling was in conflict with the beatific
image that he had beheld, and with the infinite joy that vision portended. He
could sense the two feelings in conflict within his breast. In various
circumstances, sometimes in mid-sentence, he would become aware of one or the
other of these feelings making some claim on speech or action. After a while,
he was content to live with both.
He really had been dead, they told him
afterwards. A doctor had pronounced him dead. But they had prayed over him,
they had snug hymns, and they even tried to revive him by body massage (mainly
in the vicinity of Mauritania). They had returned him to life. He had been
truly and literally reborn. Since this corresponded so well to his own perception
of the experience, he accepted the account, and gladly. While he almost never
talked about it, he became convinced of the significance of the event. He had
not been struck dead for nothing. He had not been brought back for no reason.
Under his patron's tutelage, he began to
study Scripture seriously. He was deeply moved by the idea of the Resurrection
and the doctrine of Salvation. He assisted the Reverend Mr. Rankin at first in
small ways, eventually filling in for him in the more onerous or more distant
preaching assignments--especially after the younger Billy Jo Rankin left for
Odessa, Texas, in answer to a call from God. Soon Joss found a preaching style
that was his own, not so much exhortatory as explanatory. In simple language
and homely metaphors, he would explain baptism and the afterlife, the
connection of Christian Revelation with the myths of classical Greece and Rome,
the idea of God's plan for the world, and the conformity of science and
religion when both were properly understood. This was not the conventional
preaching, and it was too ecumenical for many tastes. But it proved
unaccountably popular.
"You've been reborn, Joss," the
elder Rankin told him. "So you ought to change your name. Except Palmer
Joss is such a fine name for a preacher, you'd be a fool not to keep it."
Like doctors and lawyers, the vendors of
religion rarely criticize one another's wares, Joss observed. But one night he
attended services at the new Church of God, Crusader, to hear the younger Billy
Jo Rankin, triumphantly returned from Odessa, preach to the multitude. Billy Jo
enunciated a stark doctrine of Reward, Retribution, and the Rapture. But
tonight was a healing night. The curative instrument, the congregation was
told, was the holiest of relics--holier than a splinter of the True Cross,
holier even than the thigh bone of Saint Teresa of Avila that Generalissimo
Francisco Franco had kept in his office to intimidate the pious. What Billy Jo
Rankin Brandished was the actual amniotic fluid that surrounded and protected
our Lord. The liquid had been carefully preserved in an ancient earthenware
vessel that once belonged, so it was said, to Saint Ann. The tiniest drop of it
would cure what ails you, he promised, through a special act of Divine Grace.
This holiest of holy waters was with us tonight.
Joss was appalled, not so much that
Rankin would attempt so transparent a scam but that any of the parishioners
were so credulous as to accept it. In his previous life he had witnessed many
attempts to bamboozle the public. But that was entertainment. This was
different. This was religion. Religion was too important to gloss the truth,
much less to manufacture miracles. He took to denouncing this imposture from
the pulpit.
As his fervor grew, he railed against
other deviant forms of Christian fundamentalism, including those aspirant
herpetologists who tested their faith by fondling snakes in accord with the
biblical injunction that the pure of heart shall not fear the venom of
serpents. In one widely quoted sermon he paraphrased Voltaire. He never
thought, he said, that he would find men of the cloth so venal as to lend
support to the blasphemers who taught that the first priest was the first rogue
who met the first fool. These religions were damaging religion. He shook his
finger gracefully in the air.
Joss argued that in every religion there
was a doctrinal line beyond which it insulted the intelligence of its
practitioners. Reasonable people might disagree as to where that line should be
drawn, but religions trespassed well beyond it at their peril. People were not
fools, he said. The day before his death, as he was putting his affairs in
order, the elder Rankin sent word to Joss that he never wanted to lay eyes on him
again.
At the same time, Joss began to preach
that science didn't have all the answers either. He found inconsistencies in
the theory of evolution. The embarrassing findings, the facts that don't fit,
the scientists just sweep under the rug, he said. They don't really know that
the Earth is 4.6 billion years old, any more than Archbishop Ussher knew that
it was 6,000 years old. Nobody has seen evolution happen, nobody has been
marking time since the Creation. ("Two-hundred-quadrillion-Mississippi..."
he once imagined the patient timekeeper intoning, counting up the seconds from
the origin of the world.)
And Einstein's theory of relativity was
also unproved. You couldn't travel faster than light no matter what, Einstein
had said. How could he know? How close to the speed of light had he gone?
Relativity was only a way of understanding the world. Einstein couldn't
restrict what mankind could do in the far future. And Einstein sure couldn't
set limits on what God could do. Couldn't God travel faster than light if He
wanted to? Couldn't God make us travel faster than light if He wanted to? There
were excesses in science and there were excesses in religion. A reasonable man
wouldn't be stampeded by either one. There were many interpretations of Scripture
and many interpretations of the natural world. Both were created by God, so
both must be mutually consistent. Wherever a discrepancy seems to exist, either
a scientist or a theologian--maybe both--hasn't been doing his job.
Palmer Joss combined his evenhanded
criticism of science and religion with a fervent plea for moral rectitude and a
respect for the intelligence of his flock. In slow stages he acquired a
national reputation. In debates on the teaching of "scientific
creationism" in the schools, on the ethical status of abortion and frozen
embryos, on the admissibility of genetic engineering, he attempted in his way
to steer a middle course, to reconcile caricatures of science and religion.
Both contending camps were outraged at his interventions, and his popularity
grew. He became a confidant of presidents. His sermons were excerpted on the Op
Ed pages of major secular newspapers. But he resisted many invitations and some
proffered blandishments to found an electronic church. He continued to live
simply, and rarely--except for presidential invitations and ecumenical
congresses--left the rural South. Beyond a conventional patriotism, he made it
a rule not to meddle in politics. In a field filled with competing entries,
many of dubious probity, Palmer Joss became, in erudition and moral authority,
the preeminent Christian fundamentalist preacher of his day.
*
* *
Der Heer had asked if they could have a
quiet dinner somewhere. He was flying in for the summary session with Vaygay
and the Soviet delegation on the latest progress in the interpretation of the
Message. But south-central New Mexico was crawling with the world's press, and
there was no restaurant for a hundred miles in which they could talk unobserved
and unheard. So she made dinner herself in her modest apartment near the
visiting scientists' quarters at the Argus facility. There was a great deal to
talk about. Sometimes it seemed that the fate of the whole project was hanging
by a presidential thread. But the little tremor of anticipation she felt just
before Ken's arrival was occasioned, she was vaguely aware, by more than that.
Joss was not exactly business, so they got around to him while loading the
dishwasher.
"The man is scared stiff,"
Ellie said. "His perspective is narrow. He imagines the Message is going
to be unacceptable biblical exegesis or something that shakes his faith. He has
no idea about how a new scientific paradigm subsumes the previous one. He wants
to know what science has done for him lately. And he'd supposed to be the voice
of reason."
"Compared to the Doomsday Chiliasts
and the Earth-Firsters, Palmer Joss is the soul of moderation," der Heer
replied. "Maybe we haven't explained the methods of science as well as we
should have. I worry about that a lot these days. And Ellie, can you really be
sure that it isn't a message from--"
"From God or the Devil? Ken, you
can't be serious."
"Well, how advanced beings committed
to what we might call good or evil, who somebody like Joss would consider
indistinguishable from God or the Devil?"
"Ken, whoever those beings are in
the Vega system, I guarantee they didn't create the universe. And they're
nothing like the Old Testament God. Remember, Vega, the Sun, and all the other
stars in the solar neighborhood are in some backwater of an absolutely humdrum
galaxy. Why should I Am That I Am hang out around here? There must be more
pressing things for him to do."
"Ellie, we're in a bind. You know
Joss is very influential. He's been close to three presidents, including the
president incumbent. The President is inclined to make some concession to Joss,
although I don't think she wants to put him and a bunch of other preachers on
the Preliminary Decryption Committee with you, Valerian, and Drumlin--to say
nothing of Vaygay and his colleagues. It's hard to imagine the Russians going
along with fundamentalist clergy on the Committee. The whole thing could
unravel over this. So why don't we go and talk to him? The President says that
Joss is really fascinated by science. Suppose we won him over?"
"We're going to convert Palmer
Joss?"
"I'm not imagining making him change
his religion--let's just make him understand what Argus is about, how we don't
have to answer the Message if we don't like what it says, how interstellar
distances quarantine us from Vega."
"Ken, he doesn't even believe that
the velocity of light is a cosmic speed limit. We're going to be talking past
each other. Also, I've got a long history of failure in accommodating to the
conventional religions. I tend to blow my top at their inconsistencies and
hypocrisies. I'm not sure a meeting between Joss and me is what you want. Or
the President."
"Ellie," he said, "I know
who I'd put my money on. I don't see how getting together with Joss could make
things much worse."
She allowed herself to return his smile.
*
* *
With the tracking ships now in place and
a few small but adequate radio telescopes installed in such places as Reykjavik
and Jakarta, there was now redundant coverage of the signal from Vega at every
longitude swath. A major conference was scheduled to be held in Paris of the
full World Message Consortium. In preparation, it was natural for the nations
with the largest fraction of the data to hold a preparatory scientific
discussion. They had been meeting for the better part of four days, and this
summary session was intended mainly to bring those such as der Heer, who served
as intermediaries between the scientists and the politicians, up to speed. The
Soviet delegation, while nominally headed by Lunacharsky, included several
scientists and technical people of equal distinction. Among them were Genrikh
Arkhangelsky, recently named head of the Soviet-led international space
consortium called Intercosmos, and Timofei Gotsridze, listed as Minister of
Medium Heavy Industry, and a member of the Central Committee.
Vaygay clearly felt himself under unusual
pressures: he had resumed chain smoking. He held the cigarette between his
thumb and forefinger, palm up, as he talked.
"I agree that there is adequate
overlap in longitude, but I'm still worried about redundancy. A failure in the
helium liquifier on board the Marshal Nedelin or a power failure in Reykjavik,
and the continuity of the Message is in jeopardy. Suppose the Message takes two
years to cycle around to the beginning. If we miss a piece, we will have to
wait two more years to fill in the gap. And remember, we don't know that the
Message will be repeated. If there's no repeat, the gaps will never be
repaired. I think we need to plan even for unlikely possibilities."
"What are you thinking of?" der
Heer asked. "Something like emergency generators for every observatory in
the Consortium?"
"Yes, and independent amplifiers,
spectrometers, autocorrelators, disk drives, and so forth at each observatory.
And some provision for fast airlift of liquid helium to remote observatories if
necessary."
"Ellie, do you agree?"
"Absolutely."
"Anything else?"
"I think we should continue to
observe Vega on a very broad range of frequencies," Vaygay said.
"Perhaps tomorrow a different message will come through on only one of the
message frequencies. We should also monitor other regions of the sky. Maybe the
key to the Message won't come from Vega, but from somewhere else--"
"Let me say why I think Vaygay's
point is important," interjected Valerian. "This is a unique moment,
when we're receiving a message but have made no progress at all in decrypting
it. We have no previous experience along these lines. We have to cover all the
bases. We don't want to wind up a year or two from now kicking ourselves
because there was some simple precaution we forgot to take, or some simple
measurement that we overlooked. The idea that the Message will cycle back on
itself, as far as we can see, that promises cycling back. Any opportunities
lost now may be lost for all time. I also agree there's more instrumental
development that needs doing. For all we know there's a fourth layer to the
palimpsest."
"There's also the question of
personnel," Vaygay continued. "Suppose this message goes on not for a
year or two but for decades. Or suppose this is just the first in a long series
of messages from all over the sky. There are at most a few hundred really
capable radio astronomers in the world. That is a very small number when the
stakes are so high. The industrialized countries must start producing many more
radio astronomers and radio engineers with first-rate training."
Ellie noted that Gotsridze, who had said
little, was taking detailed notes. She was again struck by how much more
literate the Soviets were in English than the Americans in Russian. Near the
beginning of the century, scientists all over the world spoke--or at least
read--German. Before that it had been French, and before that Latin. In another
century there might be some other obligatory scientific language--Chinese,
perhaps. For the moment it was English, and scientists all over the planet
struggled to learn its ambiguities and irregularities.
Lighting a fresh cigarette from the
glowing tip of its predecessor, Vaygay went on. "There is something else
to be said. This is just speculation. It's not even as plausible as the idea
that the Message will cycle back on itself--which Professor Valerian quite
properly stressed was only a guess. I would not ordinarily mention so
speculative an idea at such an early stage. But if the speculation is sound,
there are certain further actions we must begin thinking about immediately. I
would not have the courage to raise this possibility if Academician
Arkhangelsky had not come tentatively to the same conclusion. He and I have
disagreed about the quantization of quasar red shifts, the explanation of
superluminal light sources, the rest mass of the neutrino, quark physics in
neutron stars... We have had many disagreements. I must admit that sometimes he
has been right and sometimes I have been right. Almost never, it seems to me,
in the early speculative stage of a subject, have we agreed. But on this, we
agree.
"Genrikh Dmit'ch, would you
explain?"
Arkhangelsky seemed tolerant, even
amused. He and Lunacharsky had been for years engaged in personal rivalry,
heated scientific disputes, and a celebrated controversy on the prudent level
of support for Soviet fusion research.
"We guess," he said, "that
the Message is the instructions for building a machine. Of course, we have no
knowledge about how to decode the Message. The evidence is in internal
references. I give you an example. Here on page 15441 is a clear reference to
an earlier page, 13097, which, by luck, we also have. The later page was
received here in New Mexico, the earlier one at our observatory near Tashkent.
On page 13097 there is another reference, this to a time when we were not
covering all longitudes. There are many cases of this back referencing. In
general, and this is the important point, there are complicated instructions on
a recent page, but simpler instructions on an earlier page. In one case there
are eight citations to earlier material on a single page."
"That's not an awfully compelling
arguments, guys," replied Ellie. "Maybe it's a set of mathematical
exercises, the later ones building on the earlier ones. Maybe it's a long
novel--they might have very long lifetimes compared to us--in which events are
connected with childhood experiences or whatever they have on Vega when they're
young. Maybe it's a tightly cross-referenced religious manual."
"The Ten Billion Commandments."
Der Heer laughed.
"Maybe," said Lunacharsky,
starting through a cloud of cigarette smoke out the window at the telescopes.
They seemed to be staring longingly at the sky. "But when you look at the
patterns of cross- references, I think you'll agree it looks more like the
instruction manual for building a machine. God knows what the machine is
supposed to do."
CHAPTER 9
The
Numinous
Wonder is
the basis of worship.
-THOMAS CARLYLE
Sartor
Resartus (1833-34)
I maintain that the cosmic religious
feeling is the strongest and noblest motive for scientific research.
-ALBERT EINSTEIN
Ideas and
Opinions (1954)
She could
recall the exact moment when, on one of many trips to Washington, she
discovered that she was falling in love with Ken der Heer.
Arrangements for the meeting with Palmer
Joss seemed to be taking forever. Apparently Joss was reluctant to visit the
Argus facility; it was the impiety of the scientists, not their interpretation
of the Message, he now said, that interested him. And to probe their character,
some more neutral ground was needed. Ellie was willing to go anywhere, and a
special assistant to the President was negotiating. Other radio astronomers were
not to go; the President wanted it to be Ellie alone.
Ellie was also waiting for the day, still
some weeks off, when she would fly to Paris for the first full meeting of the
World Message Consortium. She and Vaygay were coordination the global data-collection
program. The signal acquisition was now fairly routine, and in recent months
there had been not one gap in the coverage. So she found to her surprise that
she had a little time on her hands. She vowed to have a long talk with her
mother, and to remain civil and friendly no matter what provocation was
offered. There was an absurd amount of backed-up paper and electronic mail to
go through, not just congratulations and criticisms from colleagues, but
religious admonitions, pseudoscientific speculations proposed with great
confidence, and fan mail from all over the world. She had not read The
Astrophysical Journal in months, although she was the first author of a very
recent paper that was surely the most extraordinary article that had ever appeared
in the august publication. The signal from Vega was so strong that many
amateurs--tired of "ham" radio--had begun constructing their own
small radio telescopes and signal analyzers. In the early stages of Message
acquisition, they had turned up some useful data, and Ellie was still besieged
by amateurs who thought they had acquired something unknown to the SETI
professionals. She felt an obligation to write encouraging letters. There were
other meritorious radio astronomy programs at the facility--the quasar survey,
for example--that needed attending to. But instead of doing all these things,
she found herself spending almost all her time with Ken.
Of course, it was her duty to involve the
President's Science Adviser in Project Argus as deeply as he wished. It was
important that the President be fully and competently informed. She hoped the
leaders of other nations would be as thoroughly briefed on the findings from
Vega as was the President of the United States. This President, while untrained
in science, genuinely liked the subject and was willing to support science not
only for its practical benefits but, at least a little, for the joy of knowing.
This had been true of few previous American leaders since James Madison and
John Quincy Adams.
Still, it was remarkable how much time
der Heer was able to spend at Argus. He did devote an hour or more each day in
high-bandpass scrambled communications with his Office of Science and
Technology Policy in the Old Executive Office Building in Washington. But the
rest of the time, as far as she could see, he was simply... around. He would
poke into the innards of the computer system, or visit individual radio
telescopes. Sometimes an assistant from Washington would be with him; more
often he would be alone. She would see him through the open door of the spare
office they had assigned him, his feet propped up on the desk, reading some
report or talking on the phone. He would offer her a cheery wave and return to
his work. She would find him talking casually with Drumlin or Valerian; but
equally so with junior technicians and with the secretarial staff, who had on
more than one occasion pronounced him, within Ellie's hearing,
"charming."
Der Heer had many questions for her as
well. At first they were purely technical and programmatic, but soon they
extended to plans for a wide variety of conceivable future events, and then to
untrammeled speculation. These days it almost seemed that discussion of the
project was only a pretext to spend a little time together.
One fine autumn afternoon in Washington,
the President was obliged to delay a meeting of the Special Contingency Task
Group because of the Tyrone Free crisis. After an overnight flight from New
Mexico, Ellie and der Heer found themselves with an unscheduled few hours, and
decided to visit the Vietnam Memorial, designed by Maya Ying Lin when she was
still an undergraduate architectural student at Yale. Amidst the somber and
doleful reminders of a foolish war, der Heer seemed inappropriately cheerful,
and Ellie began again to speculate about flaws in his character. A pair of
General Service administration plainclothes security people, their
custom-molded, flesh-colored earpieces in place, followed discreetly.
He had coaxed an exquisite blue caterpillar
to climb aboard a twig. It briskly padded along, its iridescent body rippling
with the motion of fourteen pairs of feet. At the end of the twig, it held on
with its last five segments and failed the air in a plucky attempt to find a
new perch. Unsuccessful, it turned itself around smartly and retraced its many
steps. Der Heer then changed his clutch on the twig so that when the
caterpillar returned to its starting point , there was again nowhere to go.
Like some caged mammalian carnivore, it paced back and forth many times, but in
the last few passages, it seemed to her, with increasing resignation. She was
beginning to feel pity for the poor creature, even if it proved to be, say, the
larva responsible for the barley blight.
"What a wonderful program in this
little guy's head!" he exclaimed. "It works every time-- optimum
escape software. And he knows not to fall off. I mean the twig is effectively
suspended in air. The caterpillar never experiences that in nature, because the
twig is always connected to something. Ellie, did you ever wonder what the
program would feel like if it was in your head? I mean, would it just seem
obvious to you what you had to do when you came to the end of a twig? Would you
have the impression you were thinking it through? Would you wonder how you knew
to shake your front ten feet in the air but hold on tight with the other
eighteen?"
She inclined her head slightly and
examined him rather than the caterpillar. He seemed to have little difficulty
imagining her as an insect. She tried to reply noncommittally, reminding
herself that for him this would be a matter of professional interest.
"What'll you do with it now?"
"I'll put it back down in the grass,
I guess. What else would you do with it?"
"Some people might kill it."
"It's hard to kill a creature once
it lets you see its consciousness." He continued to carry both twig and
lava.
They walked for a while in silence past
almost 55,000 names engraved in reflecting black granite.
"Every government that prepares for
war paints its adversaries as monsters," she said. "They don't want
you thinking of the other side as human. If the enemy can think and feel, you
might hesitate to kill them. And killing is very important. Better to see them
as monsters."
"Here, look at this beauty," he
replied after a moment. "Really. Look closely."
She did. Fighting back a small tremor of
revulsion, she tried to see it through his eyes.
"Watch what it does," he
continued. "If it was as big as you or me, it would scare everybody to
death. It would be a genuine monster, right? But it's little. It eats leaves,
minds its own business, and adds a little beauty to the world."
She took the hand not preoccupied with
the caterpillar, and they walked wordlessly past the ranks of names, inscribed
in chronological order of death. These were, of course, only American
casualties. Except in the hearts of their families and friends, there was no
comparable memorial anywhere on the planet for the two million people of
Southeast Asia who had also died in the conflict. In America, the most common
public comment about this war was about political hamstringing of military
power, psychologically akin, she thought, to the "stab-in-the-back"
explanation by German militarists of their World War I defeat. The Vietnam war
was a pustule on the national conscience that no President so far had the
courage to lance. (Subsequent policies of the Democratic Republic of Vietnam
had not made this task easier.) She remembered how common it was for American
soldiers to call their Vietnamese adversaries "gooks,"
"slopeheads," "slant-eyes," and worse. Could we possibly
manage the next phase of human history without first dealing with this penchant
for dehumanizing the adversary?
*
* *
In everyday conversation, der Heer didn't
talk like an academic. If you met him at the corner newsstand buying a paper,
you'd never guess he was a scientist. He hadn't lost his new York street
accent. At first the apparent incongruity between his language and the quality
of his scientific work seemed amusing to his colleagues. As his research and
the man himself became better known, his accent became merely idiosyncratic.
But his pronunciation of, say, guanosine triphosphate, seemed to give this
benign molecule explosive properties.
They had been slow in recognizing that
they were falling in love. It must have been apparent to many others. A few
weeks before, when Lunacharsky was still at Argus, he launched himself on one
of his occasional tirades on the irrationality of language. This time it was
the turn of American English.
"Ellie, why do people say `make the
same mistake again'? What does `again' add to the sentence? And am I right that
`burn up' and `burn down' mean the same thing? `Slow up' and `slow down' mean
the same thing? So if `screw up' is acceptable, why not `screw down'?"
She nodded wearily. She had heard him
more than once complain to his Soviet colleagues on the inconsistencies of the
Russian language, and was sure she would hear a French edition of all this at
the Paris conference. She was happy to admit that languages had infelicities,
but they had so many sources and evolved in response to so many small pressures
that it would be astonishing if they were perfectly coherent and internally
consistent. Vaygay had such a good time complaining, though, that she
ordinarily did not have the heart to remonstrate with him.
"And take this phrase `head over
heels in love,'" he continued. "This is a common expression, yes? But
it's exactly backward. Or, rather, upside down. You are ordinarily head over
heels. When you are in love you should be heels over head. Am I right? You
would know about falling in love. But whoever invented this phrase did not know
about love. He imagined you walk around in the usual way, instead of floating
upside down in the air, like the work of that French painter--what's his
name?"
"He was Russian," she replied.
Marc Chagall had provided a narrow pathway out of a somehow awkward
conversational thicket. Afterward she wondered if Vaygay had been teasing her
or probing for a response. Perhaps he had only unconsciously recognized the
growing bond between Ellie and der Heer.
At least part of der Heer's reluctance
was clear. Here he was, the President's Science Adviser, devoting an enormous
amount of time to an unprecedented, delicate, and volatile matter. To become
emotionally involved with one of the principals was risky. The President
certainly wanted his judgment unimpaired. He should be able to recommend
courses of action that Ellie opposed, and to urge rejection of options that she
supported. Falling in love with Ellie would on some level compromise der Heer's
effectiveness.
For Ellie it was more complicated. Before
she had acquired the somewhat staid respectability of the directorship of a
major radio observatory, she had had many partners. While she had felt herself
in love and declared herself so, marriage had never seriously tempter her. She
dimly remembered the quatrain--was it William Butler Yeats?--with which she had
tried to reassure her early swains, heartbroken because, as always, she had
determined that the affair was over:
You say there is no love, my love, Unless
it lasts for aye. Ah, folly, there are episodes Far better than the play.
She
recalled how charming John Staughton had been to her while courting her mother,
and how easily he had cast off this prose after he became her stepfather. Some
new and monstrous persona, hitherto barely glimpsed, could emerge in men
shortly after you married them. Her romantic predispositions made her
vulnerable, she thought. She was not going to repeat her mother's mistake. A
little deeper was a fear of falling in love without reservation, of committing
herself to someone who might then be snatched from her. Or simply leave her.
But if you never really fall in love, you can never really miss it. (She did
not dwell on this sentiment, dimly aware that it did not ring quite true.)
Also, if she never really fell in love with someone, she could never really
betray him, as in her heart of hearts she felt that her mother had betrayed her
long- dead father. She still missed him terribly.
With Ken it seemed to be different. Or
had her expectations been gradually compromised over the years? Unlike many
other men she could think of, when challenged or stressed Ken displayed a
gentler, more compassionate side. His tendency to compromise and his skill in
scientific politics were part of the accouterments of his job; but underneath
she felt she had glimpsed something solid. She respected him for the way he had
integrated science into the whole of his life, and for the courageous support
for science that he had tried to inculcate into two administrations.
They had, as discreetly as possible, been
staying together, more or less, in her small apartment at Argus. Their
conversations were a joy, with ideas flying back and forth like shuttlecocks.
Sometimes they responded to each other's uncompleted thoughts with almost
perfect foreknowledge. He was a considerate and inventive lover. And anyway,
she liked his pheromones.
She was sometimes amazed at what she was
able to do and say in his presence, because of their love. She came to admire
him so much that his love for her affected her own self-esteem: She liked
herself better because of him. And since he clearly felt the same, there was a
kind of infinite regress of love and respect underlying their relationship. At
least, that was how she described it to herself. In the presence of so many of
her friends, she had felt an undercurrent of loneliness. With Ken, it was gone.
She was comfortable describing to him her
reveries, snatches of memories, childhood embarrassments. And he was not merely
interested but fascinated. He would question her for hours about her childhood.
His questions were always direct, sometimes probing, but without exception
gentle. She began to understand why lovers talk baby talk to one another. There
was no other socially acceptable circumstance in which the children inside her
were permitted to come out. If the one-year-old, the five-year- old, the
twelve-year-old, and the twenty-year-old all find compatible personalities in
the beloved, there is a real chance to keep all of these sub-personas happy.
Love ends their long loneliness. Perhaps the depth of love can be calibrated by
the number of different selves that are actively involved in a given
relationship. With her previous partners, it seemed, at most one of these
selves was able to find a compatible opposite number; the other personas were
grumpy hangers-on.
*
* *
The weekend before the scheduled meeting
with Joss, they were lying in bed as the late-afternoon sunlight, admitted
between the slats of the venetian blinds, played patterns on their intertwined
forms.
"In ordinary conversation," she
was saying, "I can talk about my father without feeling more than... a
slight pang of loss. But if I allow myself to really remember him--his sense of
humor, say, or that... passionate fairness--then the facade crumbles, and I
want to weep because he's gone."
"No question; language can free us
of feeling, or almost," der Heer replied, stroking her shoulder.
"Maybe that's one of its functions--so we can understand the world without
becoming entirely overwhelmed by it."
"If so, then the invention of
language isn't only a blessing. You know, Ken, I'd give anything--I really mean
anything I have--if I could spend a few minutes with my dad."
She imagined a heaven with all those nice
moms and dads floating about or flapping over to a nearby cloud. It would have
to be a commodious place to accommodate all the tens of billions of people who
had lived and died since the emergence of the human species. It might be very
crowded, she was thinking, unless the religious heaven was built on a scale
something like the astronomical heaven. Then there'd be room to spare.
"There must be some number,"
Ellie said, "that measures the total population of intelligent beings in
the Milky Way. How many do you suppose it is? If there's a million
civilizations, each with about a billion individuals, that's, um, ten to the
fifteenth power intelligent beings. But if most of them are more advanced than
we are, maybe the idea of individuals becomes inappropriate; maybe that's just
another Earth chauvinism."
"Sure. And then you can calculate
the galactic production rate of Gauloises and Twinkies and Volga sedans and
Sony pocket communicators. Then we could calculate the Gross Galactic Product.
Once we have that in hand, we could work on the Gross Comic..."
"You're making fun of me," she
said with a soft smile, not at all displeased. "But think about such
numbers. I mean really think about them. All those planets with all those
beings, more advanced than we are. Don't you get a kind of tingle thinking
about it?"
She could tell what he was thinking, but
rushed on. "Here, look at this. I've been reading up for the meeting with
Joss."
She reached toward the bedside table for
Volume 16 of an old Encyclopaedia Britannica Macropaedia, titled "Rubens
to Somalia," and opened to a page where a scrap of computer printout had
been inserted as a bookmark. She pointed to an article called "Sacred or
Holy."
"The theologians seem to have recognized a special,
nonrational--I wouldn't call it irrational-- aspect of the feeling of sacred or
holy. They call it `numinous.' The term was first used by... let's see... somebody
named Rudolph Otto in a 1923 book, The Idea of the Holy. He believed that
humans were predisposed to detect and revere the numinous. He called it the
misterium tremendum. Even my Latin is good enough for that.
"In the presence of the misterium
tremendum, people feel utterly insignificant but, if I read this right, not
personally alienated. He thought of the numinous as a thing `wholly other,' and
the human response to it as `absolute astonishment.' Now, if that's what
religious people talk about when they use words like sacred or holy, I'm with
them. I felt something like that just in listening for a signal, never mind in
actually receiving it. I think all of science elicits that sense of awe."
"Now listen to this." She read
from the text:
Throughout the past hundred years a number
of philosophers and social scientists have asserted the disappearance of the
sacred, and predicted the demise of religion. A study of the history of
religions shows that religious forms change and that there has never been
unanimity on the nature and expression of religion Whether or not man...
"Sexists
write and edit religious articles, too, of course." She returned to the
text.
Whether or not man is now in a new
situation for developing structures of ultimate values radically different from
those provided in the traditionally affirmed awareness of the sacred is a vital
question.
"So?"
"So, I think the bureaucratic
religions try to institutionalize your perception of the numinous instead of
providing the means so you can perceive the numinous directly--like looking
through a six-inch telescope. If sensing the numinous is at the heart of
religion, who's more religious would you say--the people who follow the
bureaucratic religions or the people who teach themselves science?"
"Let's see if I've got this straight," he returned. It
was a phrase of hers that he had adopted. "It's a lazy Saturday afternoon,
and there's this couple lying naked in bed reading the Encyclopaedia Britannica
to each other, and arguing about whether the Andromeda Galaxy is more
`numinous' than the Resurrection. Do they know how to have a good time, or
don't they?"
PART II
THE
MACHINE
The Almighty Lecturer, by displaying the
principles of science in the structure of the universe, has invited man to
study and to imitation. It is as if He had said to the inhabitants of this
globe that we call ours, "I have made an earth for man to dwell upon, and
I have rendered the starry heavens visible, to teach him science and the arts.
He can now provide for his own comfort, and learn from my munificence to all to
be kind to each other.
-THOMAS PAINE
The Age of
Reason (1794)
CHAPTER 10
Precession
of the Equinoxes
Do we,
holding that gods exist, deceive ourselves with insubstantial dreams and lies,
while random careless chance and change alone control the world?
-EURIPIDES
Hecuba
It was odd
the way it had worked out. She had imagined that Palmer Joss would come to the
Argus facility, watch the signal being gathered in by the radio telescopes, and
take note of the huge room full of magnetic tapes and disks on which the
previous many months of data were stored. He would ask a few scientific
questions and then examine, in its multiplicity of zeros and ones, some of the
reams of computer printout displaying the still incomprehensible Message. She
hadn't imagined spending hours arguing philosophy or theology. But Joss had
refused to come to Argus. It wasn't magnetic tape he wanted to scrutinize, he
said, it was human character. Peter Valerian would have been ideal for this
discussion: unpretentious, able to communicate clearly, and bulwarked by a
genuine Christian faith that engaged him daily. But the President had apparently
vetoed the idea; she had wanted a small meeting and had explicitly asked that
Ellie attend.
Joss had insisted that the discussion be
held here, at the Bible Science Research Institute and Museum in Modesto,
California. She glanced past der Heer and out the glass partition that
separated the library from the exhibit area. Just outside was a plaster
impression from a Red River sandstone of dinosaur footprints interspersed with
those of a pedestrian in sandals, proving, so the caption said, that Man and
Dinosaur were contemporaries, at least in Texas. Mesozoic shoemakers seemed
also to be implied. The conclusion drawn in the caption was that evolution was
a fraud. The opinion of many paleontologists that the sandstone was the fraud
remained, Ellie had noted two hours earlier, unmentioned. The intermingled
footprints were part of a vast exhibit called "Darwin's Default." To
its left was a Foucault pendulum demonstrating the scientific assertion, this
one apparently uncontested, that the Earth turns. To its right, Ellie could see
part of a lavish Matsushita holography unit on the podium of a small theater,
from which three-dimensional images of the most eminent divines could
communicate directly to the faithful.
Communicating still more directly to her
at this moment was the Reverend Billy Jo Rankin. She had not known until the
last moment that Joss had invited Rankin, and she was surprised at the news.
There had been continuous theological disputation between them, on whether and
Advent was at hand, whether Doomsday is a necessary accompaniment of the
Advent, and on the role of miracles in the ministry, among other matters. But
they had recently effected a widely publicized reconciliation, done, it was
said, for the common good of the fundamentalist community in America. The signs
of rapprochement between the United States and the Soviet Union were having
worldwide ramifications in the arbitration of disputes. Holding the meeting
here was perhaps part of the price Palmer Joss had to pay for the reconciliation.
Conceivably, Rankin felt the exhibits would provide factual support for his
position, were there any scientific points in dispute. Now, two hours into
their discussion, Rankin was still alternately castigating and imploring. His
suit was immaculately tailored, his nails freshly manicured, and his beaming
smile stood in some contrast to Joss's rumpled, distracted, and more
weather-beaten appearance. Joss, the faintest of smiles on his face, had his
eyes half closed and his head bowed in what seemed very close to an attitude of
prayer. He had not had to say much. Rankin's remarks so far--except for the
Rapture rap, she guessed--were doctrinally indistinguishable from Joss's
television address.
"You scientists are so shy,"
Rankin was saying. "You love to hide your light under a bushel basket.
You'd never guess what's in those articles from the titles. Einstein's first
work on the Theory of Relativity was called `The Electrodynamics of Moving
Bodies.' No E=mc2 up front. No sir. `The Electrodynamics of Moving Bodies.' I
suppose if God appeared to a whole gaggle of scientists, maybe at one of those
big Association meetings, they'd write something all about it and call it,
maybe, `On Spontaneous Dendritoform Combustion in Air.' They'd have lots of equations;
they'd talk about `economy of hypothesis'; but they'd never say a word about
God.
"Y'see, you scientists are too
skeptical." From the sidewise motion of his head, Ellie deduced that der
Heer was also included in this assessment. "You question everything, or
try to. You never heard about `Leave well enough alone,' or `If it ain't broke,
don't fix it.' You always want to check out if a thing is what you call `true.'
And `true' means only empirical, sense data, things you can see and touch.
There's no room for inspiration or revelation in your world. Right from the
beginning you rule out of court almost everything religion is about. I mistrust
the scientists because the scientists mistrust everything."
Despite herself, she thought Rankin had put
his case well. And he was supposed to be the dumb one among the modern video
evangelists. No, not dumb, she corrected herself; he was the one who considered
his parishioners dumb. He could, for all she knew, be very smart indeed. Should
she respond at all? Both der Heer and the local museum people were recording
the discussion, and although both groups had agreed that the recordings were
not for public use, she worried about embarrassing the project or the President
if she spoke her mind, but Rankin's remarks had become increasingly outrageous,
and no interventions were being made either by der Heer or by Joss.
"I suppose you want a reply,"
she found herself saying. "There isn't an `official' scientific position
on any of these questions, and I can't pretend to talk for all scientists or
even for the Argus Project. But I can make some comments, if you'd like."
Rankin nodded his head vigorously,
smiling encouragement. Languidly, Joss merely waited.
"I want you to understand that I'm
not attacking anybody's belief system. As far as I'm concerned, you're entitled
to any doctrine you like, even if it's demonstrably wrong. And many of the
things you're saying, and that the Reverend Joss has said--I saw you talk on
television a few weeks ago--can't be dismissed instantly. It takes a little
work. But let me try to explain why I think they're improbable."
So far, she though, I've been the soul of
restraint.
"You're uncomfortable with
scientific skepticism. But the reason it developed is that the world is
complicated. It's subtle. Everybody's first idea isn't necessarily right. Also,
people are capable of self- deception. Scientists, too. All sorts of socially
abhorrent doctrines have at one time or another been supported by scientists, well-known
scientists, famous brand-name scientists. And, of course, politicians. And
respected religious leaders. Slavery, for instance, or the Nazi brand of
racism. Scientists make mistakes, theologians make mistakes, everybody makes
mistakes. It's part of being human. You say it yourselves: `To err is.'
"So the way you avoid the mistakes,
or at least reduce the chance that you'll make one, is to be skeptical. You
test the ideas. You check them out by rigorous standards of evidence. I don't
think there is such a thing as a received truth. But when you let the different
opinions debate, when any skeptic can perform his or her own experiment to
check some contention out, then the truth tends to emerge. That's the
experience of the whole history of science. It isn't a perfect approach, but
it's the only one that seems to work.
"Now, when I look at religion, I see
lots of contending opinions. For example, the Christians think the universe is
a finite number of years old. From the exhibits out there, it's clear that some
Christians (and Jews, and Muslims) think that the universe is only six thousand
years old. The Hindus, on the other had-- and there are lots of Hindus in the
world--think that the universe is infinitely old, with an infinite number of subsidiary
creations and destructions along the way. Now they can't both be right. Either
the universe is a certain number of years old or it's infinitely old. Your
friends out there"--she gestured out the glass door toward several museum
workers ambling past "Darwin's Default"--"ought to debate
Hindus. God seems to have told them something different from what he told you.
But you tend to talk only to yourselves."
Maybe a little too strong? she asked
herself.
"The major religions on the Earth contradict
each other left and right. You can't all be correct. And what if all of you are
wrong? It's a possibility, you know. You must care about the truth, right?
Well, the way to winnow through all the differing contentions is to be
skeptical. I'm not any more skeptical about your religious beliefs than I am
about every new scientific idea I hear about. But in my line of work, they're
called hypotheses, not inspiration and not revelation."
Joss now stirred a little, but it was
Ranking who replied.
"The revelations, the confirmed
predictions by God in the Old Testament and the New are legion. The coming of
the Saviour is foretold in Isaiah fifty-three, in Zechariah fourteen, in First
Chronicles seventeen. That He would be born in Bethlehem was prophesied in
Micah five. That He would come from the line of David was foretold in Matthew
one and--"
"In Luke. But that ought to be an
embarrassment for you, not a fulfilled prophecy. Matthew and Luke give Jesus
totally different genealogies. Worse than that, they trace the lineage from
David to Joseph, not from David to Mary. Or don't you believe in God the
Father?"
Rankin continued smoothly on. Perhaps he
hadn't understood her. "...the Ministry and Suffering of Jesus are
foretold in Isaiah fifty-two and fifty-three, and the Twenty-second Psalm. That
He would be betrayed for thirty pieces of silver is explicit in Zechariah
eleven. If you're honest, you can't ignore the evidence of fulfilled prophecy.
"And the Bible speaks to our own
time. Israel and the Arabs, Gog and Magog, American and Russia, nuclear
war--it's all there in the Bible. Anybody with an ounce of sense can see it.
You don't have to be some fancy college professor."
"Your trouble," she replied,
"is a failure of the imagination. These prophecies are--almost every one
of them--vague, ambiguous, imprecise, open to fraud. They admit lots of
possible interpretations. Even the straightforward prophecies direct from the
top you try to weasel out of--like Jesus' promise that the Kingdom of God would
come in the lifetime of some people in his audience. And don't tell me the
Kingdom of God is within me. His audience understood him quite literally. You
only quote the passages that seem to you fulfilled, and ignore the rest. And don't
forget there was a hunger to see prophecy fulfilled.
"But imagine that your kind of
god--omnipotent, omniscient, compassionate--really wanted to leave a record for
future generations, to make his existence unmistakable to, say, the remote
descendants of Moses. It's easy, trivial. Just a few enigmatic phrases, and
some fierce commandment that they be passed on unchanged..."
"Joss leaned forward almost
imperceptibly. "Such as...?"
"Such as `The Sun is a star.' Or
`Mars is a rusty place with deserts and volcanoes, like Sinai.' Or `A body in
motion tends to remain in motion.' Or--let's see now"--she quickly
scribbled some numbers on a pad--"`The Earth weighs a million million
million million times as much as a child.' Or--I recognize that both of you
seem to have some trouble with special relativity, but it's confirmed every day
routinely in particle accelerators and cosmic rays--how about `There are no
privileged frames of reference'? Or even `Thou shalt not travel faster than
light.' anything they couldn't possible have known three thousand years
ago."
"Any others?" Joss asked.
"Well, there's an indefinite number
of them--or at least one for every principal of physics. Let's see... `Heat and
light hid in the smallest pebble.' Or even `The way of the Earth is as two, but
the way of the lodestone is as three.' I'm trying to suggest that the
gravitational force follows an inverse square law, while the magnetic dipole
force follows an inverse cube law. Or in biology"--she nodded toward der
Heer, who seemed to have taken a vow of silence--"how about `Two strands
entwined is the secret of life'?"
"Now that's an interesting
one," said Joss. "You're talking, of course, about DNA. But you know
the physician's staff, the symbol of medicine? Army doctors wear it on their
lapels. It's called the caduceus. Shows two serpents intertwined. It's a
perfect double helix. From ancient times that's been the symbol of preserving
life. Isn't this exactly the kind of connection you're suggesting?"
"Well, I thought it's a spiral, not
a helix. But if there are enough symbols and enough prophecies and enough myth
and folklore, eventually a few of them are going to fit some current scientific
understanding purely by accident. But I can't be sure. Maybe you're right.
Maybe the caduceus is a message from God. Of course, it's not a Christian
symbol, or a symbol of any of the major religions today. I don't suppose you'd
want to argue that the gods talked only to the ancient Greeks. What I'm saying
is, if God wanted to send us a message, and ancient writings were the only way
he could think of doing it, he could have done a better job. And he hardly had
to confine himself to writings. Why isn't there a monster crucifix orbiting the
Earth? Why isn't the surface of the Moon covered with the Ten Commandments? Why
should God be so clear in the Bible and so obscure in the world?"
Joss had apparently been ready to reply a
few sentences back, a look of genuine pleasure unexpectedly on his face, but
Ellie's rush of words was gathering momentum, and perhaps he felt it impolite
to interrupt.
"Also, why would you think that God
has abandoned us? He used to chat with patriarchs and prophets every second
Tuesday, you believe. He's omnipotent, you say, and omniscient. So it's no
particular effort for him to remind us directly, unambiguously, of his wishes
at least a few times in every generation. So how come, fellas? Why don't we see
him with crystal clarity?"
"We do." Rankin put enormous
feeling in this phrase. "He is all around us. Our prayers are answered.
Tens of millions of people in this country have been born again and have
witnessed God's glorious grace. The Bible speaks to us as clearly in this day
as it did in the time of Moses and Jesus."
"Oh, come off it. You know what I
mean. Where are the burning bushes, the pillars of fire, the great voice that
says `I am that I am' booming down at us out of the sky? Why should God
manifest himself in such subtle and debatable ways when he can make his
presence completely unambiguous?"
"But a voice from the sky is just
what you found." Joss made this comment casually while Ellie paused for
breath. He held her eyes with his own.
Rankin quickly picked up the thought.
"Absolutely. Just what I was going to say. Abraham and Moses, they didn't
have radios or telescopes. They couldn't have heard the Almighty talking on FM.
Maybe today God talks to us in new ways and permits us to have a new
understanding. Or maybe it's not God--"
"Yes, Satan. I've heard some talk
about that. It sounds crazy. Let's leave that one alone for a moment, if it's
okay with you. You think the Message is the Voice of God, your God. Where in
your religion does God answer a prayer by repeating the prayer back?"
"I wouldn't call a Nazi newsreel a
prayer, myself," Joss said. "You say it's to attract our
attention."
"Then why do you think God has
chosen to talk to scientists? Why not preachers like yourself?"
"God talks to me all the time."
Rankin's index finger audibly thumped his sternum. "and the Reverend Joss
here. God has told me that a revelation is at hand. When the end of the world
is nigh, the Rapture will be upon us, the judgment of sinners, the ascension to
heaven of the elect--"
"Did he tell you he was going to
make that announcement in the radio spectrum? Is your conversation with God
recorded somewhere, so we can verify that it really happened? Or do we have
only your say-so? Why would God choose to announce it to radio astronomers and
not to men and women of the cloth? Don't you think it's a little strange that
the first message from God in two thousand years or more is prime numbers...
and Adolf Hitler at the 1936 Olympics? Your God must have quite a sense of
humor."
"My God can have any sense He wants
to have."
Der Heer was clearly alarmed at the first
appearance of real rancor. "Uh, maybe I could remind us all about what we
hope to accomplish at this meeting," he began.
Here's Ken in his mollifying mode, Ellie
thought. On some issues he's courageous, but chiefly when he has not
responsibility for action. He's a brave talker... in private. But on scientific
politics, and especially when representing the President, he becomes very accommodating,
ready to compromise with the Devil himself. She caught herself. The theological
language was getting to her.
"That's another thing." She
interrupted her own train of though as well as der Heer's. "If that signal
is from God, why does it come from just one place in the sky--in the vicinity
of a particularly bright nearby star? Why doesn't it come from all over the sky
at once, like the cosmic black-body background radiation? Coming from one star,
it looks like a signal from another civilization. Coming from everywhere, it
would look much more like a signal from your God."
"God can make a signal come from the
bunghole of the Little Bear if He wants." Rankin's face was becoming
bright red. "Excuse me, but you've gotten me riled up. God can do
anything."
"Anything you don't understand, Mr.
Rankin, you attribute to God. God for you is where you sweep away all the
mysteries of the world, all the challenges our intelligence. You simply turn
you mind off and say God did it."
"Ma'am
I didn't come here to be insulted..."
"`Come here'? I thought this was
where you lived."
"Ma'am--" Rankin was about to
say something, but then thought better of it. He took a deep breath and
continued. "This is a Christian country and Christians have true knowledge
on this issue, a sacred responsibility to make sure that God's sacred word is
understood..."
"I'm a Christian and you don't speak
for me. You've tapped yourself in some sort of fifth-century religious mania.
Since then the Renaissance has happened, the Enlightenment has happened.
Where've you been?"
Both Joss and der Heer were half out of
their chairs. "Please," Ken implored, looking directly at Ellie.
"If we don't keep more to the agenda, I don't see how we can accomplish
what the President asked us to do."
"Well, you wanted `a frank exchange
of views.'"
"It's nearly noon," Joss
observed. "Why don't we take a little break for lunch?"
Outside the library conference room,
leaning on the railing surrounding the Foucault pendulum, Ellie began a brief
whispered exchange with der Heer.
"I'd like to punch out that
cocksure, know-it-all, holier-than-thou..."
"Why, exactly, Ellie? Aren't
ignorance and error painful enough?"
"Yes, if he'd shut up. But he's corrupting millions."
"Sweetheart, he thinks the same
about you."
When she and der Heer came back from
lunch, Ellie noticed immediately that Rankin appeared subdued, while Joss, who
was first to speak, seemed cheerful, certainly beyond the requirements of mere
cordiality.
"Dr. Arroway," he began,
"I can understand that you're impatient to show us your findings, and that
you didn't come here for theological disputation. But please bear with us just
a bit longer. You have a sharp tongue. I can't recall the last time Brother
Rankin here got so stirred up on matters of the faith. It must be years."
He glanced momentarily at his colleague,
who was doodling, apparently idly, on a yellow legal pad, his collar unbuttoned
and his necktie loosened.
"I was struck by one or two things
you said this morning. You called yourself a Christian. May I ask? In what
sense are you a Christian?"
"You know, this wasn't the job
description when I accepted the directorship of the Argus Project." She
said this lightly. "I'm a Christian in the sense that I find Jesus Christ
to be an admirable historical figure. I think the Sermon on the Mount is one of
the greatest ethical statements and one of the best speeches in history. I
think that `Love your enemy' might even be the long-shot solution to the
problem of nuclear war. I wish he was alive today. It would benefit everybody
on the planet. But I think Jesus was only a man. A great man, a brave man, a
man with insight into unpopular truths. But I don't think he was God or the son
of God or the grandnephew of God."
"You don't want to believe in
God." Joss said it as a simple statement. "You figure you can be a
Christian and not believe in God. Let me ask you straight out: Do you believe
in God?"
"The question has a peculiar
structure. If I say no, do I mean I'm convinced God doesn't exist, or do I mean
I'm not convinced he does exist? Those are two very different statements."
"Let's see if they are so different,
Dr. Arroway. May I call you `Doctor'? You believe in Occam's Razor, isn't that
right? If you have two different, equally good explanations of the same
experience, you pick the simplest. The whole history of science supports it,
you say. Now, if you have serious doubts about whether there is a God--enough
doubts so you're unwilling to commit yourself to the Faith--then you must be
able to imagine a world without God: a world that comes into being without God,
a world where people die without God. No punishment. No reward. All the saints
and prophets, all the faithful who have ever lived--why, you'd have to believe
they were foolish. Deceived themselves, you'd probably say. That would be a
world in which we weren't here on Earth for any good reason--I mean for any
purpose. It would all be just complicated collisions of atoms--is that right?
Including the atoms that are inside human beings.
"To me, that would be a hateful and
inhuman world. I wouldn't want to live in it. But if you can imagine that
world, why straddle? Why occupy some middle ground? If you believe all that
already, isn't it much simpler to say there's on God? You're not being true to
Occam's Razor. I think you're waffling. How can a thoroughgoing conscientious
scientist be an agnostic if you can even imagine a world without God? Wouldn't
you just have to be an atheist?"
"I thought you were going to argue
that God is the simpler hypothesis," Ellie said, "but this is a much
better point. If it were only a matter of scientific discussion, I'd agree with
you, Reverend Joss. Science is essentially concerned with examining and
correcting hypotheses. If the laws of nature explain all the available facts
without supernatural intervention, or even do only as well as the God
hypothesis, then for the time being I'd call myself an atheist. Then, if a
single piece of evidence was discovered that doesn't fit, I’d back off from
atheism. We're fully able to detect some breakdown in the laws of nature. The
reason I don't call myself an atheist is because this isn't mainly a scientific
issue. It's a religious issue and a political issue. The tentative nature of
scientific hypothesis doesn't extend into these fields. You don't talk about
God as a hypothesis. You think you've cornered the truth, so I point out that
you may have missed a thing or two. But if you ask, I'm happy to tell you: I
can't be sure I'm right."
"I've always thought an agnostic is
an atheist without the courage of his convictions."
"You could just as well say that an agnostic
is a deeply religious person with at least a rudimentary knowledge of human
fallibility. When I say I'm an agnostic, I only mean that the evidence isn't
in. There isn't compelling evidence that God exists--at least your kind of
god--and there isn't compelling evidence that he doesn't. Since more than half
the people on the Earth aren't Jews or Christian or Muslims, I'd say that there
aren't any compelling arguments for your kind of god. Otherwise, everybody on
Earth would have been converted. I say again, if you God wanted to convince us,
he could have done a much better job.
"Look at how clearly authentic the
Message is. It's being picked up all over the world. Radio telescopes are
humming away in countries with different histories, different languages,
different politics, different religions. Everybody's getting the same kind of
data from the same place in the sky, at the same frequencies with the same
polarization modulation. The Muslims, the Hindus, the Christians, and the
atheists are all getting the same message. Any skeptic can hook up a radio
telescope--it doesn't have to be very big--and get the identical data."
"You're not suggesting that your
radio message is from God," Rankin offered.
"Not at all. Just that the
civilization on Vega--with powers infinitely less than what you attribute to
your God--was able to make things very clear. If your God wanted to talk to us
through the unlikely means of word-of-mouth transmission and ancient writings
over thousands of years, he could have done it so there was no room left for
debate about its existence."
She paused, but neither Joss nor Rankin
spoke, so she tried again to steer the conversation to the data.
"Why don't we just withhold judgment
for a while until we make some more progress on decrypting the Message? Would
you like to see some of the data?"
This time they assented, readily enough
it seemed. But she could produce only reams of zeros and ones, neither edifying
nor inspirational. She carefully explained about the presumed pagination of the
Message and the hoped-for primer. By unspoken agreement, she and der Heer said
nothing about the Soviet view that the Message was the blueprint for a machine.
It was at best a guess, and had not yet been publicly discussed by the Soviets.
As an afterthought, she described something about Vega itself--its mass,
surface temperature, color, distance from the Earth, lifetime, and the ring of
orbiting debris around it that had been discovered by the Infrared Astronomy
Satellite in 1983.
"But beyond its being one of the
brightest stars in the sky, is there anything special about it?" Joss
wanted to know. "Or anything that connects it up with Earth?"
"Well, in terms of stellar
properties, anything like that, I can't think of a thing. But there is one
incidental fact: Vega was the Pole Star about twelve thousand years ago, and it
will be again about fourteen thousand years from now."
"I though the polestar was the Pole
Star." Rankin, still doodling, said this to the pad of paper.
"It is, for a few thousand years.
But not forever. The Earth is like a spinning top. Its axis is slowly
precessing in a circle." She demonstrated, using her pencil as the Earth's
axis. "It's called the precession of the equinoxes."
"Discovered by Hipparchus of Rhodes," added Joss. "Second
century B.C." This seemed a surprising piece of information for him to
have at his fingertips.
"Exactly. So right now," she
continued, "an arrow from the center of the Earth to the North Pole points
to the star we call Polaris, in the constellation of the Little Dipper, or the
Little Bear. I believe you were referring to this constellation just before
lunch, Mr. Rankin. As the Earth's axis slowly precesses, it points in some
different direction in the sky, not toward Polaris, and over 26,000 years the
place in the sky to which the North Pole points makes a complete circle. The
North Pole points right now very near Polaris, close enough to be useful in
navigation. Twelve thousand years ago, by accident, it pointed to Vega. But
there's no physical connection. How the stars are distributed in the Milky Way
has nothing to do with the Earth's axis of rotation being tipped twenty-three
and a half degrees."
"Now, twelve thousand years ago is 10,000
B.C., the time when civilization was just starting up. Isn't that right?"
Joss asked.
"Unless you believe that the Earth
was created in 4004 B.C."
"No, we don't believe that, do we,
Brother Rankin? We just don't think the age of the Earth is known with the same
precision that you scientists do. On the question of the age of the Earth,
we're what you might call agnostics." He had a most attractive smile.
"So if folks were navigating ten
thousand years ago, sailing the Mediterranean, say, or the Persian Gulf, Vega
would have been their guide?"
That's still in the last Ice Age.
Probably a little early for navigation. But the hunters who crossed the Bering
land bridge to North America were around then. I must have seemed an amazing
gift-- providential, if you like--that such a bright star was exactly to the
north. I'll bet a lot of people owed their lives to that coincidence."
"Well now, that's mighty
interesting."
"I don't want you to think I used
the word `providential' as anything but a metaphor."
"I'd never think that, my
dear."
Joss was by now giving signs that the
afternoon was drawing to a close, and he did not seem displeased. But there
were still a few items, it seemed, on Rankin's agenda.
"It amazes me that you don't think
it was Divine Providence, Vega being the Pole Star. My faith is so strong I
don't need proofs, but every time a new fact comes along it simply confirms my
faith."
"Well then, I guess you weren't
listening very closely to what I was saying this morning. I resent the idea
that we're in some kind of faith contest, and you're the hands-down winner. So
far as I know you've never tested your faith? I'm willing to do it for mine.
Here, take a look out that window. There's a big Foucault pendulum out there.
The bob must weight five hundred pounds. My faith says that the amplitude of a
free pendulum--how far it'll swing away from the vertical position--can never
increase. It can only decrease. I'm willing to go out there, put the bob I
front of my nose, let go, have it swing away and then back toward me. If my
beliefs are in error, I'll get a five-hundred-pound pendulum smack in the face.
Come on. You want to test my faith?"
"Truly, it's not necessary. I
believe you," replied Joss. Rankin, though, seemed interested. He was
imagining, she guessed, what she would look like afterward.
"But would you be willing," she
went on, "to stand a foot closer to this same pendulum and pray to God to
shorten the swing? What if it turns out that you've gotten it all wrong, that
what you're teaching isn't God's will at all? Maybe it's the work of the Devil.
Maybe it's pure human invention. How can you be really sure?"
"Faith, inspiration, revelation,
awe," Rankin answered. "Don't judge everyone else by your own limited
experience. Just the fact that you've rejected the Lord doesn't prevent other
folks from acknowledging His glory."
"Look, we all have a thirst for
wonder. It's a deeply human quality. Science and religion are both bound up
with it. What I'm saying is, you don't have to make stories up, you don't have
to exaggerate. There's wonder and awe enough in the real world. Nature's a lot
better at inventing wonders than we are."
"Perhaps we are all wayfarers on the
road to truth," Joss replied.
On this hopeful note, der Heer stepped in
deftly, and amidst strained civilities they prepared to leave. She wondered
whether anything useful had been accomplished. Valerian would have been much
more effective and much less provocative, Ellie thought. She wished she had
kept herself in better check.
"It's been a most interesting day,
Dr. Arroway, and I thank you for it." Joss seemed a little remote again,
courtly but distracted. He shook her hand warmly, though. On the way out to the
waiting government car, past a lavishly rendered three-dimensional exhibit on
"The Fallacy of the Expanding Universe," a sign read, "Our God
Is Alive and Well. Sorry About Yours."
She whispered to der Heer, "I'm
sorry if I made your job more difficult."
"Oh no, Ellie. You were fine."
"That Palmer Joss is a very
attractive man. I don't think I did much to convert him. But I'll tell you, he
almost converted me."
She was joking of course.
CHAPTER 11
The World
Message Consortium
The world
is nearly all parceled out, and what there is left of it is being divided up,
conquered, and colonized. To think of these stars that you see overhead at
night, these vast worlds which we can never reach. I would annex the planets if
I could; I often think of that. It makes me sad to see them so clear and yet so
far.
-CECIL RHODES Last Will and Testament
(1902)
From their
table by the window she could see the downpour spattering the street outside. A
soaked pedestrian, his collar up, gamely hurried by. The proprietor had cranked
the striped awning over the tubs of oysters, segregated according to size and
quality and providing a kind of street advertisement for the specialty of the
house. She felt warm and snug inside the restaurant, the famous theatrical
gathering place, Chez Dieux. Since fair weather had been predicted, she was
without raincoat or umbrella.
Likewise unencumbered, Vaygay introduced
a new subject: "My friend, Meera," he announced, "is an
ecdysiast--that is the right word, yes? When she works in your country she
performs for groups of professionals, at meetings and conventions. Meera says
that when she takes off her clothes for working-class men--at trade union
conventions, that sort of thing--they become wild, shout out improper
suggestions, and try to join her on the stage. But when she gives exactly the
same performance for doctors or lawyers, they sit there motionless. Actually,
she says, some of them lick their lips. My question is: Are the lawyers
healthier than the steelworkers?"
That Vaygay had diverse female
acquaintances had always been apparent. His approaches to women were so direct
and extravagant--herself, for some reason that both pleased and annoyed her,
excluded--that they could always say no without embarrassment. Many said yes.
But the news about Meera was a little unexpected.
They had spent the morning in a last
minute comparison of notes and interpretations of the new data. The continuing
Message transmission had reached an important new stage. Diagrams were being
transmitted from Vega the way newspaper wire photos are transmitted. Each
picture was an array raster. The number of tiny black and white dots that made
up the picture was the product of two prime numbers. Again prime numbers were
part of the transmission. There was a large set of such diagrams, on following
the other, and not at all interleaved with the text. It was like a section of
glossy illustrations inserted in the back of a book. Following transmission of
the long sequence of diagrams, the unintelligible text continued. From at least
some of the diagrams it seemed obvious that Vaygay and Arkhangelsky had been
right, that the Message was in part at least the instructions, the blueprints, for
building a machine. Its purpose was unknown. At the plenary session of the
World Message Consortium, to be held tomorrow at the Elysée Palace, she and
Vaygay would present for the first time some of the details to representatives
of the other Consortium nations. But word had quietly been passed about the
machine hypothesis.
Over lunch, she had summarized her
encounter with Rankin and Joss. Vaygay had been attentive, but asked no
questions. It was as if she had been confessing some unseemly personal predilection
and perhaps that had triggered his train of association.
"You have a friend named Meera who's
a striptease artist? With international venue?"
"Since Wolfgang Pauli discovered the
Exclusion Principle while watching the Folies-Bergère, I have felt it my
professional duty as a physicist to visit Paris as much as possible. I think of
it as my homage to Pauli. But somehow I can never persuade the officials in my
country to approve trips solely for this purpose. Usually I must do some pedestrian
physics as well. But in such establishments--that's where I met Meera--I am a
student of nature, waiting for insight to strike."
Abruptly his tone of voice shifted from
expansive to matter-of-face. "Meera says American professional men are sexually
repressed and have gnawing doubts and guilt."
"Really. And what does Meera say
about Russian professional men?"
"Ah, in that category she knows only
me. So, of course, she has a good opinion. I think I'd rather be with Meera
tomorrow."
"But all your friends will be at the Consortium meeting," she
said lightly.
"Yes, I'm glad you'll be
there," he replied morosely.
"What's worrying you, Vaygay?"
He took a long time before answering, and
began with a slight but uncharacteristic hesitation.
"Perhaps not worries. Maybe only
concerns....What if the Message really is the design drawings of a machine? Do
we build the machine? Who builds it? Everybody together? The Consortium? The
United Nations? A few nations in competition? What if it's enormously expensive
to build? Who pays? Why should they want to? What if it doesn't work? Could
building the machine injure some nations economically? Could it injure them in
some other way?"
Without interrupting the torrent of questions,
Lunacharsky emptied the last of the wine into their glasses. "Even if the
message cycles back and even if we completely decrypt it, how good could the
translation be? You know the opinion of Cervantes? He said that reading a
translation is like examining the back of a piece of tapestry. Maybe it's not
possible to translate the Message perfectly. Then we wouldn't build the machine
perfectly. Also, are we really confident we have all the data? Maybe there's
essential information at some other frequency that we haven't discovered yet.
"You know, Ellie, I though people
would be very cautious about building this machine. But there may be some
coming tomorrow who will urge immediate construction--I mean, immediately after
we receive the primer and decrypt the Message, assuming that we do. What is the
American delegation going to propose?"
"I don't know," she said
slowly. But she remembered that soon after the diagrammatic material had been
received der Heer began asking whether it was likely that the machine was
within reach of the Earth's economy and technology. She could offer him little
reassurance on either score. She recalled again how preoccupied Ken had seemed
in the last few weeks, sometimes even jittery. His responsibilities in this matter
were, of course--
"And Dr. der Heer and Mr. Kitz
staying at the same hotel as you?"
"No, they're staying at the
Embassy."
It was always the case. Because of the
nature of the Soviet economy and the perceived necessity of buying military
technology instead of consumer goods with their limited hard currency, Russians
had little walking around money when visiting the West. They were obliged to
stay in second- or third-rate hotels, even rooming houses, while their Western
colleagues lived in comparative luxury. It was a continuing source of
embarrassment for scientists of both countries. Picking up the bill for this
relatively simple meal would be effortless for Ellie but a burden for Vaygay,
despite his comparatively exalted status in the Soviet scientific hierarchy.
Now, what was Vaygay...
"Vaygay, be straight with me. What
are you saying? You think Ken and Mike are jumping the gun?"
"'Straight' An interesting word; not
right, not left, but progressively forward. I'm concerned that in the next few
days we will see premature discussion about building something that we have no
right to build. The politicians think we know everything. In fact, we know
almost nothing. Such a situation could be dangerous."
It finally dawned on her that Vaygay was
taking a personal responsibility for figuring out the nature of the Message. If
it led to some catastrophe, he was worried it might be his fault. He had less
personal motives as well, of course.
"You want me to talk to Ken?"
"If you think it's appropriate. You
have frequent opportunities to talk to him?" He said this casually.
"Vaygay, you're not jealous, are
you? I think you picked up on my feelings for Ken before I did. When you were
back at Argus. Ken and I've been more or less together for the last two months.
Do you have some reservations?"
"Oh no, Ellie. I am not your father
or a jealous lover. I wish only great happiness for you. It's just that I see
so many unpleasant possibilities."
But he did not further elaborate.
They returned to their preliminary
interpretations on some of the diagrams, with which the table was eventually
covered. For counterpoint, they also discussed a little politics--the debate in
America over the Mandala Principles for resolving the crisis in South Africa,
and the growing war of words between the Soviet Union and the German Democratic
Republic. As always, Arroway and Lunacharsky enjoyed denouncing their own
countries' foreign policies to one another. This was far more interesting than
denouncing the foreign policies of each other's nation, which would have been
equally easy to do. Over their ritual dispute about whether the check should be
shared, she noticed that the downpour had diminished to a discreet drizzle.
By now, the news of the Message from Vega
had reached every nook and cranny of the planet Earth. People who knew nothing
of radio telescopes and had never heard of a prime number had been told a
peculiar story about a voice from the stars, about strange beings--not exactly
men, but not exactly gods either--who had been discovered living in the night
sky. They did not come from Earth. Their home star could easily be seen, even
with a full moon. Amidst the continuing frenzy of sectarian commentary, there
was also--all over the world, it was now apparent--a sense of wonder, even of
awe. Something transforming, something almost miraculous was happening. The air
was full of possibility, a sense of new beginning.
"Mankind has been promoted to high
school," an American newspaper editorialist had written.
There were other intelligent beings in
the universe. We could communicate with them. They were probably older than we,
possibly wiser. They were sending us libraries of complex information. There
was a widespread anticipation of imminent secular revelation. So the
specialists in every subject began to worry. Mathematicians worried about what
elementary discoveries they might have missed. Religious leaders worried that
Vegan values, however alien, would find ready adherents, especially among the
uninstructed young. Astronomers worried that there might be fundamentals about
the nearby stars that they had gotten wrong. Politicians and government leaders
worried that some other systems of government, some quite different from those
currently fashionable, might be admired by a superior civilization. Whatever
Vegans knew had not been influenced by peculiarly human institutions, history,
or biology. What if much that we think true is a misunderstanding, a special
case, or a logical blunder? Experts uneasily began to reassess the foundation
of their subjects.
Beyond this narrow vocational disquiet
was a great and soaring corner, of bursting into a new age--a symbolism
powerfully amplified by the approach of the Third Millennium. There were still
political conflicts, some of them--like the continuing South African
crisis--serious. But there was also a notable decline in many quarters of the
world of jingoist rhetoric and puerile self-congratulatory nationalism. There
was a sense of the human species, billions of tiny beings spread over the
world, collectively presented with an unprecedented opportunity, or even a
grave common danger. To many, it seemed absurd for the contending nation states
to continue their deadly quarrels when faced with a nonhuman civilization of
vastly greater capabilities. There was a whiff of hope in the air. Some people
were unaccustomed to it and mistook it for something else--confusion, perhaps,
or cowardice.
For decades after 1945, the world
stockpile of strategic nuclear weapons had steadily grown. Leaders changed,
weapons systems changed, strategy changed, but the number of strategic weapons
only increased. The time came when there were more than 25,000 of them on the
planet, ten for every city. The technology was pushing toward short flight
time, incentives for hard-target first strike, and at least de facto
launch-on-warning. Only so monumental a danger could undo so monumental a
foolishness, endorsed by so many leaders in so many nations for so long a time,
but finally the world came to its senses, at least to this extent, and an
accord was signed by the United States, the Soviet Union, Britain, France, and
China. It was not intended to rid the world of nuclear weapons. Few expected it
to carry some Utopia in its wake. But the Americans and the Russians undertook
to diminish the strategic arsenals down to a thousand nuclear weapons each. The
details were carefully designed so that neither superpower was at any
significant disadvantage at any stage of the dismantling process. Britain,
France, and China agreed to begin reducing their arsenals once the superpowers
had gone below the 3,200 mark. The Hiroshima Accords were signed, to worldwide
rejoicing, next to the famous commemorative plaque for the victims in the first
city ever obliterated by a nuclear weapon: "Rest in peace, for it shall
never happen again."
Every day the fission triggers from an
equal number of U.S. and Soviet warheads were delivered to a special facility
run by American and Russian technicians. The plutonium was extracted, logged,
sealed, and transported by bilateral teams to nuclear power plants where it was
consumed and converted into electricity. This scheme, known as the Gayler Plan
after an American admiral, was widely hailed as the ultimate in beating swords
into plowshares. Since each nation still retained a devastating retaliatory
capability, even the military establishments eventually welcomed it. Generals
no more wish for their children to die than anyone else, and nuclear war is the
negation of the conventional military virtues; it is hard to find much valor in
pressing a button. The first divestment ceremony--televised live, and
rebroadcast many times--featured white clad American and Soviet technicians
wheeling in two of the dull gray metallic objects, each about as big as an
ottoman and festooned variously with stars and stripes, hammers and sickles. It
was witnessed by a huge fraction of the world population. The evening
television news programs regularly counted how many strategic weapons on both
sides had been disassembled, how many more to go. In a little over two decades,
this news, too, would reach Vega.
In the following years, the divestitures
continued, almost without a hitch. At first the fat in the arsenals was
surrendered, with little change in strategic doctrine; but now the cuts were
being felt, and the most destabilizing weapons systems were being dismantled.
It was something the experts had called impossible and declared "contrary
to human nature." But a sentence of death, as Samuel Johnson had noted,
concentrates the mind wonderfully. In the past half year, the dismantling of
nuclear weapons by the United States and the Soviet Union had made new strides,
with fairly intrusive inspection teams of each nation soon to be installed on
the territory of the other--despite the disapproval and concern publicly voiced
by the military staffs on both nations. The United Nations found itself
unexpectedly effective in mediating international disputes, with the West
Iranian and the Chile-Argentina border wars both apparently resolved. There was
even talk, not all of it fatuous, of a nonaggression treaty between NATO and
the Warsaw Pact.
The delegates arriving at the first
plenary session of the World Message Consortium were predisposed toward
cordiality to an extent unparalleled in recent decades.
Every nation with even a handful of
Message bits was represented, sending both scientific and political delegates;
a surprising number sent military representatives as well. In a few cases,
national delegations were led by foreign ministers or even heads of state. The
United Kingdom delegation included Viscount Boxforth, the Lord Privy Seal--an
honorific Ellie privately found hilarious. The U.S.S.R. delegation was headed
by B. Ya. Abukhimov, President of the Soviet Academy of Sciences, with
Gotsridze, the Minister of Medium Heavy Industry, and Arkhangelsky playing
significant roles. The President of the United States had insisted that der
Heer head the American delegation, although it included Undersecretary of State
Elmo Honicutt and Michael Kitz, among others, for the Department of Defense.
A vast and elaborate map in equal area
projection showed the disposition of radio telescopes over the planet,
including the Soviet oceangoing tracking vessels. Ellie glanced around the
newly completed conference hall, adjacent to the offices and residence of the
President of France. In only the second year of his seven year term, he was
making every effort to guarantee the meeting's success. A multitude of faces,
flags, and national dress was reflected off the long arcing mahogany tables and
the mirrored walls. She recognized few of the political and military people, but
in every delegation there seemed to be at least one familiar scientist or
engineer: Annunziata and Ian Broderick from Australia; Fedirka from
Czechoslovakia; Braude, Crebillon, and Boileau from France; Kemar Chandrapurana
and Devi Sukhavati from India; Hironaga and Matsui from Japan...Ellie reflected
on the strong technological rather than radioastronomical background of many of
the delegates, especially the Japanese. The idea that the construction of some
vast machine might be on the agenda of this meeting had motivated last minute
changes in the composition of delegations.
She also recognized Malatesta of Italy;
Bedenbaugh, a physicist fallen into politics, Clegg, and the venerable Sir
Arthur Chatos chatting behind the sort of Union Jack one can find on restaurant
tables in European resorts; Jaime Ortiz of Spain; Prebula from Switzerland,
which was puzzling, since Switzerland did not, so far as she knew, even have a
radio telescope; Bao, who had done brilliantly in putting together the Chinese
radio telescope array; Wintergarden from Sweden. There were surprisingly large
Saudi, Pakistani and Iraqi delegations; and, of course, the Soviets, among whom
Nadya Rozhdestvenskaya and Genrikh Arkhangeldky were sharing a moment of
genuine hilarity.
Ellie looked for Lunacharsky, and finally
spotted him with the Chinese delegation. He was shaking hands with Yu Renqiong,
the director of the Beijing Radio Observatory. She recalled that the two men
had been friends and colleagues during the period of Sino-Soviet cooperation.
But the hostilities between their two nations had ended all contact between
them, and Chinese restrictions on foreign travel by their senior scientists
were still almost as severe as Soviet constraints. She was witnessing, she
realized, their first meeting in perhaps a quarter century.
"Who's the old Chinaperson Vaygay's
shaking hands with?" This was, for Kitz, an attempt at cordiality. He had
been making small offerings of this sort for the last few days--a development
she regarded as unpromising.
"Yu,
Director of the Beijing Observatory."
"I thought those guys hated each
other's guts."
"Michael," she said, "the
world is both better and worse than you imagine."
"You can probably beat me on
`better,' " he replied, "but you can't hold a candle to me on
`worse.'"
After the welcome by the President of
France (who, to mild astonishment, stayed to hear the opening presentations)
and a discussion of procedure and agenda by der Heer and Abukhirnov as
conference co-chairmen, Ellie and Vaygay together summarized the data. They
made what were by now standard presentations--not too technical, because of the
political and military people--of how radio telescopes work, the distribution
of nearby stars in space, and the history of the palimpsest Message. Their
tandem presentation concluded with a survey, displayed on the monitors before
each delegation, of the diagrammatic material recently received. She was
careful to show how the polarization modulation was converted into a sequence
of zeros and ones, how the zeros and ones fit together to make a picture, and
how in most cases they had not the vaguest notion of what the picture conveyed.
The data points reassembled themselves on
the computer screens. She could see faces illuminated in white, amber, and
green by the monitors in the now partly darkened hall. The diagrams showed
intricate branching networks; lumpy, almost indecently biological forms; a
perfectly formed regular dodecahedron. A long series of pages had been reassembled
into an elaborately detailed three-dimensional construction which slowly
rotated. Each enigmatic object was joined by an unintelligible caption.
Vaygay stressed the uncertainties still
more strongly than she did. Nevertheless, it was, in his opinion, now beyond
doubt that the Message was a handbook for the construction of a machine. He
neglected to mention that the idea of the Message as a blueprint had originally
been his and Arkhangelsky's, and Ellie seized the opportunity to rectify the oversight.
She had talked about the subject enough
over the past few months to know that both scientific and general audiences
were often fascinated by the details of the unraveling of the Message, and
tantalized by the still unproved concept of a primer. But she was unprepared
for the response from this--one would expect-- staid audience. Vaygay and she
had interdigitated their presentations. As they finished, there was a sustained
thunder of applause. The Soviets and Eastern European delegations applauded in
unison, with a frequency of about two or three handclaps per heartbeat. The
Americans and many others applauded separately, their unsynchronized clapping a
sea of white noise rising from the crowd. Enveloped by an unfamiliar kind of
joy, she could not resist thinking about the differences in national
character--the Americans as individualists, and the Russians engaged in a
collective endeavor. Also, she recalled that Americans in crowds tried to
maximize their distance from their fellows, while Soviets tended to lean on
each other as much as possible. Both styles of applause, the American clearly
dominant, delighted her. For just a moment she permitted herself to think about
her stepfather. And her father.
After lunch there was a succession of other
presentations on the data collection and interpretation. David Drumlin gave an
extraordinarily capable discussion of a statistical analysis he had recently
performed of all previous pages of the Message that referred to the new
numbered diagrams. He argued that the Message contained not just a blueprint
for building a machine but also descriptions of the designs and means of
fabrication of components and subcomponents. In a few cases, he thought, there
were descriptions of whole new industries not yet known on Earth. Ellie, mouth
agape, shook her finger toward Drumlin, silently asking Valerian whether he had
known about this. His lips pursed, Valerian hunched his shoulders and rotated
his hands palms up. She scanned the other delegates for some expression of
emotion, but could detect mainly signs of fatigue; the depth of technical
material and the necessity, sooner or later, of making political decisions were
already producing strain. After the session, she complimented Drumlin on the
interpretation but asked why she had not heard of it until now. He replied
before walking away, "Oh, I didn't think it was important enough to bother
you with. It was just a little something I did while you were out consulting
religious fanatics."
If Drumlin had been her thesis adviser,
she would still be pursuing her Ph.D., she thought. He had never fully accepted
her. They would never share an easygoing collegial relationship. Sighing, she
wondered whether Ken had known about Drumlin's new work. But as conference cochairman,
der Heer was sitting with his Soviet opposite number on a raised dais facing
the horseshoe of delegate tiers. He was, as he had been for weeks, nearly
inaccessible. Drumlin was not obliged to discuss his findings with her, of
course; she knew they both had been preoccupied recently. But in conversation
with him why was she always accommodating--and argumentative only in extremis?
A part of her evidently felt that the granting of her doctorate and the
opportunity to pursue her science were still future possibilities firmly in
Drumlin's hands.
On the morning of the second day, a
Soviet delegate was given the floor. He was unknown to her. "Stefan
Alexeivich Banida," the vitagraphics on her computer screen read out,
"Director, Institute for Peace Studies, Soviet Academy of Sciences,
Moscow; Member, Central Committee, Communist Party of the U.S.S.R."
"Now we start to play hardball," she heard Michael Kitz say to Eirno
Honicutt of the State Department. Baruda was a dapper man, wearing an elegantly
tailored and impeccably fashionable Western business suit, perhaps of Italian
cut. His English was fluent and almost unaccented. He had been born in one of
the Baltic republics, was young to be head of such an important organization--
formed to study the long-term implications for strategic policy of the
deaccessioning of nuclear weapons--and was a leading example of the "new
wave" in the Soviet leadership.
"Let us be frank," Baruda was
saying. "A Message is being sent to us from the far reaches of space. Most
of the information has been gathered by the Soviet Union and the United States.
Essential pieces have also been obtained by other countries. All of those
countries are represented at this conference. Any one nation--the Soviet Union,
for example--could have waited until the Message repeated itself several times,
as we all hope it will, and fill in the many missing pieces in such a way. But
it would take years, perhaps decades, and we are a little impatient. So we have
all shared the data.”
"Any one nation--the Soviet Union,
for example--could place into orbit around the Earth large radio telescopes
with sensitive receivers that work at the frequencies of the Message. The
Americans could do this as well. Perhaps Japan or France or the European Space
Agency could. Then any one nation by itself could acquire all the data, because
in space a radio telescope can point at Vega all the time. But that might be
thought a hostile act. It is no secret that the United States or the Soviet
Union might be able to shoot down such satellites. So, perhaps for this reason,
too, we have all shared the data.
"It is better to cooperate. Our
scientists wish to exchange not only the data they have gathered, but also
their speculations, their guesses, their...dreams. All you scientists are alike
in that respect. I am not a scientist.
"My specialty is government. So I
know that the nations are also alike. Every nation is cautious. Every nation is
suspicious. None of us would give an advantage to a potential adversary if we
could prevent it. And so there have been two opinions--perhaps more, but at
least two--one that counsels exchange of all the data, and another that
counsels each nation to seek advantage over the others. `You can be sure the
other side is seeking some advantage,' they say. It is the same in most
countries.
"The scientists have won this
debate. So, for example, most of the data--although, I wish to point out, not
all--acquired by the United States and the Soviet Union have been exchanged.
Most of the data from all other countries have been exchanged worldwide. We are
happy we have made this decision."
Ellie whispered to Kitz, "This
doesn't sound like `hardball' to me."
"Stay tuned," he whispered back.
"But there are other kinds of dangers. We would like now to raise one of
them for the Consortium to consider." Baruda's tone reminded her of
Vaygay's at lunch the other day. What was the bee in the Soviet bonnet?
"We have heard Academician Lunacharsky,
Dr. Arroway, and other scientists agree that we are receiving the instructions
for building a complex machine. Suppose that, as everyone seems to expect, the
end of the Message comes; the Message recycles to the beginning; and we receive
the introduction or--the English word is `primer'?--primer which lets us read
the Message. Suppose also that we continue to cooperate fully, all of us. We
exchange all the data, all the fantasies, all the dreams.
"Now the beings on Vega, they are
not sending us these instructions for their amusement. They want us to build a
machine. Perhaps they will tell us what the machine is supposed to do. Perhaps
not. But even if they do, why should we believe them? So I raise my own
fantasy, my own dream. It is not a happy one. What if this machine is a Trojan
Horse? We build the machine at great expense, turn it on, and suddenly an
invading army pours out of it. Or what if it is a Doomsday Machine? We build
it, turn it on, and the Earth blows up. Perhaps this is their way to suppress
civilizations just emerging into the cosmos. It would not cost much; they pay
only for a telegram, and the upstart civilization obediently destroys itself.
"What I am about to ask is only a
suggestion, a talking point. I raise it for your consideration. I mean it to be
constructive. On this issue, we all share the same planet, we all have the same
interests. No doubt I will put it too bluntly. Here is my question: Would it be
better to burn the data and destroy the radio telescopes?"
A
commotion ensued. Many delegations asked simultaneously to be recognized.
Instead, the conference co-chairmen seemed mainly motivated to remind the
delegates that sessions were not to be recorded or videotaped. No interviews
were to be granted to the press. There would be daily press releases, agreed
upon by the conference co-chairmen and the leaders of delegations. Even the
integuments of the present discussion were to remain in this conference
chamber.
Several delegates asked for clarification
from the Chair. "If Baruda is right about a Trojan Horse or a Doomsday
Machine," shouted out a Dutch delegate, "isn't it our duty to inform
the public?" But he had not been recognized and his microphone had not
been activated. They went on to other, more urgent, matters. Ellie had quickly
punched into the institutional computer terminal before her for an early
position in the queue. She discovered that she was scheduled second, after
Sukhavati and before one of the Chinese delegates.
Ellie knew Devi Sukhavati slightly. A
stately woman in her mid-forties, she was wearing a Western coiffure, high
heeled sling-back pumps, and an exquisite silk sari. Originally trained as a
physician, she had become one of the leading Indian experts in molecular
biology and now shared her time between King's College, Cambridge, and the Tata
Institute in Bombay. She was one of a handful of Indian Fellows of the Royal
Society of London, and was said to be well placed politically. They had last
met a few years before, at an international symposium in Tokyo, before receipt
of the Message had eliminated the obligatory question marks in the titles of
some of their scientific papers. Ellie had sensed a mutual affinity, due only
in part to the fact that they were among the few women participating in
scientific meetings on extraterrestrial life.
"I recognize that Academician Baruda
has raised an important and sensitive issue," Sukhavati began, "and
it would be foolish to dismiss the Trojan Horse possibility carelessly. Given
most of recent history, this is a natural idea, and I'm surprised it took so
long to be raised. However, I would like to caution against such fears. It is
unlikely in the extreme that the beings on a planet of the star Vega are
exactly at our level of technological advance. Even on our planet, cultures do
not evolve in lockstep. Some start earlier, others later. I recognize that some
cultures can catch up at least technologically. When there were high
civilizations in India, China, Iraq, and Egypt, there were, at best, iron age
nomads in Europe and Russia, and stone age cultures in America.
"But the differences in the
technologies will be much greater in the present circumstances. The
extraterrestrials are likely to be far ahead of us, certainly more than a few
hundred years farther along--perhaps thousands of years ahead of us, or even
millions. Now, I ask you to compare that with the pace of human technological
advancement in the last century.
"I grew up in a tiny village in
South India. In my grandmother's time the treadle sewing machine was a
technological wonder. What would beings who are thousands of years ahead of us
be capable of? Or millions? As a philosopher in our part of the world once
said: The artifacts of a sufficiently advanced extraterrestrial civilization
would be indistinguishable from magic.'
"We can pose no threat to them
whatever. They have nothing to fear from us, and that will be true for a very
long time. This is no confrontation between Greeks and Trojans, who were evenly
matched. This is no science fiction movie where beings from different planets
fight with similar weapons. If they wish to destroy us, they can certainly do
so with or without our coopera--"
"But at what cost?" someone
interrupted from the floor. "Don't you see? That's the point. Baruda is
saying our television broadcasts to space are their notice that it's time to
destroy us, and the Message is the means. Punitive expeditions are dear. The
Message is cheap."
Ellie could not make out who had shouted
out this intervention. It seemed to be someone in the British delegation. His
remarks had not been amplified by the audio system, because again the speaker
had not been recognized by the Chair. But the acoustics in the conference hall
were sufficiently good that he could be heard perfectly well. Der Heer, in the
Chair, tried to keep order. Abukhirnov leaned over and whispered something to
an aide.
"You think there is a danger in
building the machine," Sukhavati replied. "I think there is a danger
in not building the machine. I would be ashamed of our planet if we turned our
back on the future. Your ancestors"--she shook a finger at her
interlocutor--"were not so timid when they first set sail for India or
America."
This meeting was getting to be full of
surprises, Ellie thought, although she doubted whether Clive or Raleigh were
the best role models for present decision making. Perhaps Sukhavati was only
tweaking the British for past colonial offenses. She waited for the green
speaker's light on her console to illuminate, indicating that her microphone
was activated.
"Mr. Chairman." She found
herself in this formal and public posture addressing der Heer, whom she had
hardly seen in the last few days. They had arranged to spend tomorrow afternoon
together during a break in the meeting, and she felt some anxiety about what
they would say. Oops, wrong thought, she thought.
"Mr. Chairman, I believe we can shed
some light on these two questions--the Trojan Horse and the Doomsday Machine. I
had intended to discuss this tomorrow morning, but it certainly seems relevant
now."
On her console, she punched in the code
numbers for a few of her slides. The great mirrored hall darkened.
"Dr. Lunacharsky and I are convinced
that these are different projections of the same three-dimensional
configuration. We showed the entire configuration in computer simulated
rotation yesterday. We think, though we can't be sure, that this is what the
interior of the Machine will look like. There is as yet no clear indication of
scale. Maybe it's a kilometer across, maybe it's submicroscopic. But notice
these five objects evenly spaced around the periphery of the main interior
chamber, inside the dodecahedron. Here's a close-up of one of them. They're the
only things in the chamber that look at all recognizable.
"This appears to be an ordinary
overstuffed armchair, perfectly configured for a human being. It's very
unlikely that extraterrestrial beings, evolved on another quite different
world, would resemble us sufficiently to share our preferences in living room
furniture. Here, look at this close up. It looks like something from my
mother's spare room when I was growing up."
Indeed, it almost seemed to have flowered
slipcovers. A small flutter of guilt entered her mind. She had neglected to
call her mother before leaving for Europe, and, if truth be told, had called
her only once or twice since the Message was received. Ellie, how could you?
she remonstrated with herself.
She looked again at the computer
graphics. The fivefold symmetry of the dodecahedron was reflected in the five
interior chairs, each facing a pentagonal surface. "So it's our
contention--Dr. Lunacharsky and I--that the five chairs are meant for us. For
people. That would mean that the interior chamber of the machine is only a few
meters across, the exterior, perhaps ten or twenty meters across. The
technology is undoubtedly formidable, but we don't think we're talking about
building something the size of a city. Or as complex as an aircraft carrier. We
might very well be able to build this, whatever it is, if we all work together.
"What I'm trying to say is that you
don't put chairs inside a bomb. I don't think this is a Doomsday Machine, or a
Trojan Horse. I agree with what Dr. Sukhavati said, or maybe only implied: the
idea that this is a Trojan Horse is itself an indication of how far we have to
go."
Again there was an outburst. But this
time der Heer made no effort to stop it; indeed, he actually turned the complainant's
microphone on. It was the same delegate who had interrupted Sukhavati a few
minutes earlier, Philip Bedenbaugh of the United Kingdom, a Labour Party
minister in the shaky coalition government.
"...simply doesn't understand what
our concern is. If it was literally a wooden horse, we would not be tempted to
bring the alien device within the city gates. We have read our Homer. But
flounce it up with some upholstery and our suspicions are allayed. Why? Because
we are being flattered. Or bribed. There's an historic adventure implied.
There's the promise of new technologies. There's a hint of acceptance by--how
to put it?--greater beings. But I say no matter what lofty fantasies the radio
astronomers may entertain, if there is even a tiny chance the machine is a
means of destruction, it should not be built. Better, as the Soviet delegate
has proposed, to burn the data tapes and make the construction of radio
telescopes a capital crime."
The meeting was becoming unruly. Scores
of delegates were electronically queuing for authorization to speak. The hubbub
rose to a subdued roar that reminded Ellie of her years of listening to
radioastronomical static. A consensus did not seem readily within reach, and
the co-chairmen were clearly unable to restrain the delegates.
As the Chinese delegate rose to speak,
the vitagraphics were slow to appear on Ellie's screen and she looked around
for help. She had no idea who this man was either. Nguyen "Bobby" Bui,
a National Security Council staffer now assigned to der Heer, leaned over and
said: "Xi Qiaomu's his name. Spelled `ex,' `eye.' Pronounced `she.' Heavy
dude. Born on the Long March. Volunteer as a teenager in Korea. Government
official, mainly political. Knocked down for a nine count in the Cultural
Revolution. Central Committee member now. Very influential. Been in the news
lately. Also directs Chinese archeological digging."
Xi Qiaomu was a tall, broad shouldered
man around sixty. The wrinkles on his face made him seem older, but his posture
and physique gave him an almost youthful appearance. He wore his tunic buttoned
at the collar in the fashion that was as obligatory for Chinese political
leaders as three piece suits were for American governmental leaders, the
President, of course, excepted. The vitagraphics now came through on her
console, and she could remember having read a long article about Xi Qiaomu in
one of the video newsmagazines.
"If we are frightened," he was
saying, "we will do nothing. That will delay them a little. But remember,
they know we are here. Our television arrives at their planet. Every day they
are reminded of us. Have you looked at our television programs? They will not
forget us. If we do nothing and if they are worried about us, they will come to
us, machine or no machine. We cannot hide from them. If we had kept quiet, we
would not face this problem. If we had cable television only and no big
military radar, then maybe they would not know about us. But now it is too
late. We cannot go back. Our course is set.
"If you are seriously frightened
about this machine destroying the Earth, do not build it on the Earth. Build it
somewhere else. Then if it is a Doomsday Machine and blows up a world...it will
not be our world. But this will be very expensive. Probably too expensive. Or
if we are not so frightened, build it in some isolated desert. You could have a
very big explosion in the Takopi Wasteland in Xinjing Province and still kill
nobody. And if we are not frightened at all, we can build it in Washington. Or
Moscow. Or Beijing. Or in this beautiful city.
"In Ancient China, Vega and two
nearby stars were called Chih Neu. It means the young woman with the spinning
wheel. It is an auspicious symbol, a machine to make new clothes for the people
of the Earth. "We have received an invitation. A very unusual invitation.
Maybe it is to go to a banquet. The Earth has never been invited to a banquet
before. It would be impolite to refuse."
CHAPTER 12
The One-Delta
Isomer
Looking at
the stars always makes me dream, as simply as I dream over the black dots
representing towns and villages on a map. Why, I ask myself, shouldn't the
shining dots of the sky be as accessible as the black dots on the map of
France?
-VINCENT VAN GOGH
IT WAS a
splendid autumn afternoon, so unseasonably warm that Devi Sukhavati had left
her coat behind. She and Ellie walked along the crowded Champs Elysées toward
the Place de la Concorde. The ethnic diversity was rivaled by London,
Manhattan, and only a few other cities on the planet. Two women walking
together, one in a skirt and sweater, the other in a sari, were in no way
unusual.
Outside a tobacconist's there was a long,
orderly, and polyglot line of people attracted by the first week of legalized
sale of cured cannabis cigarettes from the United States. By French law they
could not be sold to or consumed by those under eighteen years of age. Many in
line were middle-aged and older. Some might have been naturalized Algerians or
Moroccans. Especially potent varieties of cannabis were grown, mainly in
California and Oregon, for the export trade. Featured here was a new and
admired strain, which had in addition been grown in ultraviolet light,
converting some of the inert cannabinoids into the 1 Delta isomer. It was
called "Sun-Kissed." The package, illustrated in a window display a
meter and a half high, bore in French the slogan `This will be deducted from
your share in Paradise.'
The shop windows along the boulevard were
a riot of color. The two women bought chestnuts from a street vendor and
reveled in the taste and texture. For some reason, every time Ellie saw a sign
advertising BNP, the Banque Nationale de Paris, she read it as the Russian word
for beer, with the middle letter inverted left to right. BEER, the
signs--lately corrupted from their usual and respectable fiduciary
vocations--seemed to be exhorting her, RUSSIAN BEER. The incongruity amused
her, and only with difficulty could she convince the part of her brain in
charge of reading that this was the Latin, not the Cyrillic alphabet. Further
on, they marveled at L'Obélisque--an ancient military commemorative stolen at
great expense to become a modern military commemorative. They decided to walk
on.
Der Heer had broken the date, or at least
that's what it amounted to. He had called her up this morning, apologetic but
not desperately so. There were too many political issues being raised at the
plenary session. The Secretary of State was flying in tomorrow, interrupting a
visit to Cuba. Der Heer's hands were full, and he hoped Ellie would understand.
She understood. She hated herself for sleeping with him. To avoid an afternoon
alone she had dialed Devi Sukhavati.
"One of the Sanskrit words for
`vitorious' is abhijit. That's what Vega was called in ancient India. Abhijit.
It was under the influence of Vega that the Hindu divinities, our culture
heroes, conquered the asuras, the gods of evil. Ellie, are you
listening?...Now, it's a curious thing. In Persia there are asuras also, but in
Persia the asuras were the gods of good. Eventually religions sprang up in
which the chief god, the god of light, the Sun god, was called Ahura Mazda. The
Zoroastrians, for example, and the Mithraists. Ahura, Asura, it's the same
name. There are still Zoroastrians today, and the Mithraists gave the early
Christians a good fright. But in this same story, those Hindu divinities--they
were mainly female, by the way-- were called Devis. It's the origin of my own name.
In India, the Devis are gods of good. In Persia, the Devis become gods of evil.
Some scholars think this is where the English word `devil' ultimately comes
from. The symmetry is complete. All this is probably some vaguely remembered
account of the Aryan invasion that pushed the Dravidians, my ancestors, to the
south. So, depending on which side of the Kirthar Range one lives on, Vega
supports either God or the Devil."
This cheerful story had been proffered as
a gift by Devi, who clearly had heard something of Ellie's California religious
adventures two weeks before. Ellie was grateful. But it reminded her that she
had not even mentioned to Joss the possibility that the Message was the
blueprint for a machine of unknown purpose. Now he would soon enough be hearing
all this through the media. She should really, she told herself sternly, make
an overseas call to explain to him the new developments. But Joss was said to
be in seclusion. He had offered no public statement following their meeting in
Modesto. Rankin, in a press conference, announced that while there might be
some dangers, he was not opposed to letting the scientists receive the full
Message. But translation was another matter. Periodic review by all segments of
society was required, he said, especially by those entrusted to safeguard
spiritual and moral values.
They were now approaching the Tuilerics
Gardens, where the garish hues of autumn were on display. Frail and elderly
men--Ellie judged them to be from Southeast Asia--were in vigorous dispute.
Ornamenting the black cast iron gates were multicolored balloons on sale. At
the center of a pool of water was a marble Amphitrite. Around her, toy
sailboats were racing, urged on by an exuberant crowd of small children with
Magellanic aspirations. A catfish suddenly broke water, swamping the lead boat,
and the boys and girls became subdued, chastened by this wholly unexpected
apparition. The Sun was low in the west, and Ellie felt a momentary chill.
They approached L'Orangerie, in the annex
of which was a special exhibition, so the poster proclaimed, "Images
Martiennes." The joint American-French-Soviet robot roving vehicles on
Mars had produced a spectacular windfall of color photographs, some--like the
Voyager images of the outer solar system around 1980--soaring beyond their mere
scientific purpose and becoming art. The poster featured a landscape
photographed on the vast Elysium Plateau. In the foreground was a three-sided
pyramid, smooth, highly eroded, with an impact crater near the base. It had
been produced by millions of years of high speed sandblasting by the fierce
Martian winds, the planetary geologists had said. A second rover--assigned to
Cydonia, on the other side of Mars--had become mired in a drifting dune, and
its controllers in Pasadena had been so far unable to respond to its forlorn
cries for help.
Ellie found herself riveted on
Sukhavati's appearance: her huge black eyes, erect bearing, and yet another
magnificent sari. She thought to herself, I'm not graceful. Usually she found
herself able to continue her part of a conversation while mentally addressing
other matters as well. But today she had trouble following one line of thought,
never mind two. While they were discussing the merits of the several opinions on
whether to build the Machine, in her mind's eye she returned to Devi's image
from the Aryan invasion of India 3,500 years ago: a war between two peoples,
each of whom claimed victory, each of whom patriotically exaggerated the
historical accounts. Ultimately, the story is transformed into a war of the
gods. "Our" side, of course, is good. The other side, of course, is
evil. She imagined the goateed, spade-tailed, cloven-hoofed Devil of the West
evolving by slow evolutionary steps over thousands of years from some Hindu
antecedent who, for all Ellie knew, had the head of an elephant and was painted
blue.
"Baruda's Trojan Horse--maybe it's
not a completely foolish idea," she found herself saying. "But I
don't see that we have any choice, as Xi said. They can be here in
twenty-some-odd years if they want to." They arrived at a monumental arch
in the Roman style surmounted by a heroic, indeed apotheotic, statue of
Napoleon as chariot driver. From the long view, from an extraterrestrial
perspective, how pathetic this posturing was. They rested on a nearby bench,
their long shadows cast over a bed of flowers planted in the colors of the
French Republic.
Ellie longed to discuss her own emotional
predicament, but that might have political overtones. It would, at the very
least, be indiscreet. She did not know Sukhavati very well. Instead she
encouraged her companion to speak about her personal life. Sukhavati acquiesced
readily enough.
She had been born to a Brahman but
unprosperous family with matriarchal proclivities in the southern state of
Tamil Nadu. Matriarchal households were still common all over South India. She
matriculated at Banares Hindu University. At medical school in England she had
met and fallen deeply in love with Surindar Ghosh, a fellow medical student.
But Surindar was a harijan, an untouchable, of a caste so loathed that the mere
sight of them was held by orthodox Brahmans to be polluting. Surindar's
ancestors had been forced to live a nocturnal existence, like bats and owls. Her
family threatened to disown her if they married. Her father declared that he
had no daughter who would consider such a union. If she married Ghosh, he would
mourn her as though she were dead. She married him anyway. "We were too
much in love," she said. "I really had no choice." Within the
year, he died from septicemia acquired while performing an autopsy under
inadequate supervision.
Instead of reconciling her to her family,
however, Surindar's death accomplished the opposite, and after receiving her
medical degree, Devi decided to remain in England. She discovered a natural
affinity for molecular biology and considered it an effortless continuation of
her medical studies. She soon found she had real talent in this meticulous
discipline. Knowledge of nucleic acid replication led her to work on the origin
of life, and that in turn led her to consider life on other planets.
"You could say that my scientific
career has been a sequence of free associations. One thing just led to
another."
She had recently been working on the
characterization of Martian organic matter, measured in a few locales on Mars
by the same roving vehicles whose stunning photographic products they had just
seen advertised. Devi had never remarried, although she had made it plain there
were some who pursued her. Lately she had been seeing a scientist in Bombay
whom she described as a "computer wallah."
Walking a little farther on, they found
themselves in the Cour Napoleon, the interior courtyard of the Louvre Museum.
In its center was the newly completed and wildly controversial pyramidal
entrance, and in high niches around the courtyard were sculptural
representations of the heroes of French civilization. Captioned under each
statue of a revered man--they could see little evidence of revered women--was
his surname. Occasionally, letters were eroded--by natural weathering, or in a
few cases perhaps effaced by some offended passerby. For one or two statues, it
was difficult to piece together who the savant had been. On the statue that had
evidently evoked the greatest public resentment, only the letters LTA remained.
Although the Sun was setting and the
Louvre was open until mid-evening, they did not enter, but instead ambled along
the Seine embankment, following the river back along the Quai d'Orsay. The
proprietors of bookstalls were fastening shutters and closing up shop for the
day. For a while they strolled on, arm in arm in the European manner.
A French couple was walking a few paces ahead
of them, each parent holding one hand of their daughter, a girl of about four
who would periodically launch herself off the pavement. In her momentary
suspension in zero g, she experienced, it was apparent, something akin to
ecstasy. The parents were discussing the World Message Consortium, which was
hardly a coincidence since the newspapers had been full of little else. The man
was for building the Machine; it might create new technologies and increase
employment in France. The woman was more cautious, but for reasons she had
difficulty articulating. The daughter, braids flying, was wholly unconcerned
about what to do with a blueprint from the stars.
Der Heer, Kitz, and Honicutt had called a
meeting at the American Embassy early the following morning to prepare for the
arrival of the Secretary of State later in the day. The meeting was to be
classified and held in the Embassy's Black Room, a chamber electro magnetically
decoupled from the outside world, making even sophisticated electronic surveillance
impossible. Or so it was claimed. Ellie thought there might be instrumentation
developed that could make an end run around these precautions.
After spending the afternoon with Devi
Sukhavati, she had received the message at her hotel and had tried to call der
Heer, but was able only to reach Michael Kitz. She opposed a classified meeting
on this subject, she said; it was a matter of principle. The Message was
clearly intended for the entire planet. Kitz replied that there were no data
being withheld from the rest of the world, at least by Americans; and that the
meeting was merely advisory--to assist the United States in the difficult
procedural negotiations ahead. He appealed to her patriotism, to her self
interest, and at last invoked again the Hadden Decision. "For all I know,
that thing is still sitting in your safe unread. Read it," he urged.
She tried, again unsuccessfully, to reach
der Heer. First the man turns up everywhere in the Argus facility, like a bad
penny. He moves in with you in your apartment. You're sure, for the first time
in years, you're in love. The next minute you can't even get him to answer the
phone. She decided to attend the meeting, if only to see Ken face to face.
Kitz was enthusiastically for building
the Machine, Drumlin cautiously in favor, der Heer and Honicutt at least
outwardly uncommitted, and Peter Valerian in an agony of indecision. Kitz and
Drumlin were even talking about where to build the thing. Freightage costs
alone made manufacture or even assembly on the far side of the Moon
prohibitively expensive, as Xi had guessed.
"If we use aerodynamic braking, it's
cheaper to send a kilogram to Phobos or Deimos than to the far side of the
Moon," Bobby Bui volunteered.
"Where the hell is Fobuserdeemus?"
Kitz wanted to know.
`The moons of Mars. I was talking about
aerodynamic braking in the Martian atmosphere."
"And how long does it take to get to
Phobos or Deimos?" Drumlin was stirring his cup of coffee.
"Maybe a year, but once we have a
fleet of interplanetary transfer vehicles and the pipeline is full--"
"Compared with three days to the
Moon?" sputtered Drumlin. "Bui, stop wasting our time."
"It's only a suggestion," he
protested. "You know, just something to think about."
Der Heer seemed impatient, distracted. He
was clearly under great pressure--alternately avoiding her eyes and, she
thought, making some unspoken appeal. She took it as a hopeful sign.
"If you want to worry about Doomsday
Machines," Drumlin was saying, "you have to worry about energy
supplies. If it doesn't have access to an enormous amount of energy, it can't
be a Doomsday Machine. So as long as the instructions don't ask for a gigawatt
nuclear reactor, I don't think we have to worry about Doomsday Machines."
"Why are you guys in such a hurry to
commit to construction?" she asked Kitz and Drumlin collectively. They
were sitting next to each other with a plate of croissants between them.
Kitz looked from Honicutt to der Heer
before answering: "This is a classified meeting," he began. "We
all know you won't pass anything said here on to your Russian friends. It's
like this: We don't know what the Machine will do, but it's clear from Dave
Drumlin's analysis that there's new technology in it, probably new industries.
Constructing the Machine is bound to have economic value--I mean, think of what
we'd learn.
And it might have military value. At
least that's what the Russians are thinking. See, the Russians are in a box.
Here's a whole new area of technology they're going to have to keep up with the
U.S. on. Maybe there's instructions for some decisive weapon in the Message, or
some economic advantage. They can't be sure. They'll have to bust their economy
trying. Did you notice how Baruda kept referring to what was cost effective? If
all this Message stuff went away--burn the data, destroy the telescopes--then
the Russians could maintain military parity. That's why they're so cautious.
So, of course, that's why we're gung ho for it." He smiled.
Temperamentally, Kitz was bloodless, she
thought; but he was far from stupid. When he was cold and withdrawn, people
tended not to like him. So he had developed an occasional veneer of urbane
amiability. In Ellie's view, it was a molecular monolayer thick.
"Now let me ask you a
question," he continued. "Did you catch Baruda's remark about
withholding some of the data? Is there any missing data?"
"Only from very early on," she
replied. "Only from the first few weeks, I'd guess. There were a few holes
in the Chinese coverage a little after that. There's still a small amount of
data that hasn't been exchanged, on all sides. But I don't see any signs of
serious holding back. Anyway, we'll pick up any missing data swatches after the
Message recycles."
"If the Message recycles,"
Drumlin growled. Der Heer moderated a discussion on contingency planning: what
to do when the primer was received; which American, German, and Japanese
industries to notify early about possible major development projects; how to
identify key scientists and engineers for constructing the Machine, if the
decision was made to go ahead; and, briefly, the need to build enthusiasm for
the project in Congress and with the American public. Der Heer hastened to add
that these would be contingency plans only, that no final decision was being
made, and that no doubt Soviet concerns about a Trojan Horse were at least
partly genuine. Kitz asked about the composition of "the crew."
"They're asking us to put people in
five upholstered chairs. Which people? How do we decide? It'll probably have to
be an international crew. How many Americans? How many Russians? Anybody else?
We don't know what happens to those five people when they sit down in those
chairs, but we want to have the best men for the job."
Ellie did not rise to the bait, and he
continued. "Now a major question is going to be who pays for what, who
builds what, who's in charge of overall systems integration. I think we can do
some real horse trading on this, in exchange for significant American
representation in the crew."
"But we still want to send the best
possible people," der Heer noted, a little obviously.
"Sure," returned Kitz,
"but what do we mean by `best'? Scientists? People with military
intelligence backgrounds? Physical strength and endurance? Patriotism? (That's
not a dirty word, you know.) And then" -- he looked up from buttering
another croissant to glance directly at Ellie -- "there's the question of
sex. Sexes, I mean. Do we send only men? If it's men and women, there has to be
more of one sex than the other. There's five places, an odd number. Are all the
crew members going to work together okay? If we go ahead with this project,
there's gonna be a lot of tough negotiation."
"This doesn't sound right to
me," said Ellie. "This isn't some ambassadorship you buy with a
campaign contribution. This is serious business. Also, do you want some muscle
bound moron up there, some kid in his twenties who knows nothing about how the
world works--just how to run a respectable hundred yard dash and how to obey
orders? Or some political hack? That can't be what this trip is about."
"No, you're right." Kitz
smiled. "I think we'll find people who satisfy all our criteria."
Der Heer, the bags under his eyes making
him look almost haggard, adjourned the meeting. He managed to give Ellie a
small private smile, but it was all lips, no teeth. The Embassy limousines were
waiting to take them back to the Elysée Palace.
"I'll tell you why it would be
better to send Russians," Vaygay was saying. "When you Americans were
opening up your country--pioneers, trappers, indian scouts, all that--you were
unopposed, at least by anyone at your level of technology. You raced across your
continent from the Atlantic to the Pacific. After a while, you expected
everything would be easy. Our situation was different. We were conquered by the
Mongols. Their horse technology was much superior to ours. When we expanded
eastward we were careful. We never crossed the wilderness and expected it would
be easy. We're more adjusted to adversity than you are. Also, Americans are
used to being ahead technologically. We're used to catching up technologically.
Now, everybody on Earth is a Russian--you understand, I mean in our historical
position. This mission needs Soviets more than it needs Americans."
Merely meeting with her alone entailed
certain risks for Vaygay--and for her as well, as Kitz had gone out of his way
to remind her. Sometimes, during a scientific meeting in America or Europe,
Vaygay would be permitted to spend an afternoon with her. More often he was
accompanied by colleagues or a RGB babysitter--who would be described as a
translator, even when his English was clearly inferior to Vaygay's; or as a
scientist from the secretariat of this or that Academy commission, except that
his knowledge of the scientific matters often proved superficial. Vaygay would
shake his head when asked about them. But by and large, he considered the
babysitters a part of the game, the price you must pay when they let you visit
the West, and more than once she thought she detected a note of affection in
Vaygay's voice when he talked to the babysitter: To go to a foreign country and
pretend to be expert in a subject you know poorly must be filled with anxiety.
Perhaps, in their heart of hearts, the babysitters detested their assignment as
much as Vaygay did.
They were seated at the same window table
at Chez Dieux. A distinct chill was in the air, a premonition of winter, and a
young man wearing a long blue scarf as his only concession to the cold strode
briskly past the tubs of chilled oysters outside the window. From Lunacharsky's
continuing (and uncharacteristically) guarded remarks, she deduced disarray in
the Soviet delegation. The Soviets were concerned that the Machine might
somehow redound to the strategic advantage of the United States in the
five-decade-old global competition. Vaygay had in fact been shocked by Baruda's
question about burning the data and destroying the radio telescopes. He had had
no advance knowledge of Baruda's position. The Soviets had played a vital role
in gathering the Message, with the largest longitude coverage of any nation,
Vaygay stressed, and they had the only serious oceangoing radio telescopes.
They would expect a major role in whatever came next. Ellie assured him that,
as far as she was concerned, they should have such a role.
"Look, Vaygay, they know from our
television transmissions that the Earth rotates, and that there are many
different nations. The Olympic broadcast alone might have told them that.
Subsequent transmissions from other nations would have nailed it down. So if
they're as good as we think, they could have phased the transmission with the
Earth's rotation, so only one nation got the Message. They chose not to do
that. They want the Message to be received by everybody on the planet. They're
expecting the Machine to be built by the whole planet. This can't be an all American
or an all Russian project. It's not what our...client wants."
But she was not sure, she told him, that
she would be playing any role in decisions on Machine construction or crew
selection. She was returning to the United States the next day, mainly to get
on top of the new radio data from the past few weeks. The Consortium plenary
sessions seemed interminable, and no closing date had been set. Vaygay had been
asked by his people to stay on at least a little longer. The Foreign Minister
had just arrived and was now leading the Soviet delegation.
"I'm worried all this will end
badly," he said. "There are so many things that can go wrong.
Technological failures. Political failures. Human failures. And even if we get
through all that, if we don't have a war because of the Machine, if we build it
correctly and without blowing ourselves up, I'm still worried."
"About what? How do you mean?"
"The best that can happen is we will
be made fools of."
"Who will?"
"Arroway, don't you
understand?" A vein in Lunacharsky's neck throbbed. "I'm amazed you
don't see it. The Earth is a...ghetto. Yes, a ghetto. All human beings are
trapped here. We have heard vaguely that there are big cities out there beyond
the ghetto, with broad boulevards filled with droshkys and beautiful perfumed
women in furs. But the cities are too far away, and we are too poor ever to go
there, even the richest of us. Anyway, we know they don't want us. That's why
they've left us in this pathetic little village in the first place.
"And now along comes an invitation.
As Xi said. Fancy, elegant. They have sent us an engraved card and an empty
droshky. We are to send five villagers and the droshky will carry them to--who
knows?--Warsaw. Or Moscow. Maybe even Paris. Of course, some are tempted to go.
There will always be people who are flattered by the invitation, or who think
it is a way to escape our shabby village.
"And what do you think will happen
when we get there? Do you think the Grand Duke will have us to dinner? Will the
President of the Academy ask us interesting questions about daily life in our
filthy shtetl? Do you imagine the Russian Orthodox Metropolitan will engage us
in learned discourse on comparative religion?
"No, Arroway. We will gawk at the
big city, and they will laugh at us behind their hands. They will exhibit us to
the curious. The more backward we are the better they'll feel, the more
reassured they'll be.
"It's a quota system. Every few
centuries, five of us get to spend a weekend on Vega. Have pity on the
provincials, and make sure they know who their betters are."
CHAPTER 13
Babylon
With the
basest of companions, I walked the streets of Babylon...
-AUGUSTINE Confessions, II, 3
THE CRAY
21 mainframe computer at Argus had been instructed to compare each day's
harvest of data from Vega with the earliest records of Level 3 of the
palimpsest. In effect, one long and incomprehensible sequence of zeros and ones
was being compared automatically with another, earlier, such sequence. This was
part of a massive statistical intercomparison of various segments of the still
unencrypted text. There were some short sequences of zeros and
ones--"words" the analysts called them, hopefully--which were repeated
again and again. Many sequences would appear only once in thousands of pages of
text. This statistical approach to message decryption was familiar to Ellie
since high school. But the subroutines supplied by the experts from the
National Security Agency--made available only as a result of a presidential
directive, and even then armed with instructions to self destruct if examined
closely--were brilliant.
What prodigies of human inventiveness,
Ellie reflected, were being directed to reading each other's mail. The global
confrontation between the United States and the Soviet Union--now, to be sure,
easing somewhat--was still eating up the world. It was not just the financial
resources dedicated to the military establishments of all nations. That was
approaching two trillion dollars a year, and by itself was ruinously expensive
when there were so many other urgent human needs. But still worse, she knew,
was the intellectual effort dedicated to the arms race.
Almost half the scientists on the planet,
it had been estimated, were employed by one or another of the almost two
hundred military establishments worldwide. And they were not the dregs of the
doctoral programs in physics and mathematics. Some of her colleagues would
console themselves with this thought when the awkward problem arose of what to
tell a recent doctoral candidate being courted by, say, one of the weapons
laboratories. "If he was any good, he'd be offered an assistant
professorship at Stanford, at least," she could recall Drumlin once saying.
No, a certain kind of mind and character was drawn to the military applications
of science and mathematics--people who liked big explosions, for example; or
those with no taste for personal combat who, to avenge some schoolyard
injustice, aspired to military command; or inveterate puzzle solvers who longed
to decrypt the most complex messages known. Occasionally the spur was
political, tracing back to international disputes, immigration policies,
wartime horrors, police brutality, or national propaganda by this nation or
that decades earlier. Many of these scientists had real ability, Ellie knew,
whatever reservations she might have about their motivations. She tried to
imagine that massed talent really dedicated to the well being of the species
and the planet.
She pored over the studies that had
accumulated during her absence. They were making almost no progress in
decrypting the Message, although the statistical analyses now stacked into a
pile of paper a meter tall. It was all very discouraging.
She wished there were someone, especially
a close woman friend, at Argus to whom she could pour out her hurt and anger at
Ken's behavior. But there was not, and she was disinclined even to use the
telephone for this purpose. She did manage to spend a weekend with her college
friend Becky Ellenbogen in Austin, but Becky, whose appraisals of men tended to
be somewhere between wry and scathing, in this case was surprisingly mild in
her criticism.
"He is the President's Science
Adviser, and this is only the most amazing discovery in the history of the
world. Don't be so hard on him," Becky urged. "He'll come
around."
But Becky was another of those who found
Ken "charming" (she had met him once at the dedication of the
National Neutrino Observatory), and was perhaps too inclined to accommodate to
power. Had der Heer treated Ellie in this shabby way while he was a mere
professor of molecular biology somewhere, Becky would have marinated and
skewered the man.
After returning from Paris, der Heer had
mustered a regular campaign of apology and devotion. He had been overstressed,
he told her, overwhelmed with a range of responsibilities including difficult
and unfamiliar political issues. His position as leader of the American
delegation and co-chairman of the plenary might have been rendered less
effective if there had been public knowledge of his and Ellie's relationship.
Kitz had been insufferable. Ken had had too many consecutive nights with only a
few hours' sleep. Altogether, Ellie judged, there were too many explanations.
But she permitted the relationship to continue.
When it happened, it was Willie once
again, this time on the graveyard shift, who first noticed. Afterward, Willie
would attribute the speed of the discovery less to the superconducting computer
and the NSA programs than to the new Hadden context recognition chips. At any
rate, Vega had been low in the sky an hour or so before dawn when the computer
triggered an understated alarm. With some annoyance, Willie put down what he
was reading--it was a new textbook on Fast Fourier Transform Spectroscopy--and
noticed these words being printed out on the screen:
RPT. TEXT PP. 41617-41619: BIT MISMATCH
0/2271. CORRELATION COEFFICIENT 0.99+
As he watched, 41619 became 41620 and
then 41621. The digits after the slash were increasing in a continuous blur.
Both the number of pages and the correlation coefficient, a measure of the
improbability that the correlation was by chance, increased as he watched. He
gave it another two pages before picking up the direct line to Ellie's
apartment.
She had been in a deep sleep and was
momentarily disoriented. But she quickly turned on the bedside light and after
a moment gave instructions for senior Argus staff to be assembled. She would,
she told him, locate der Heer, who was somewhere on the facility. This proved
not very difficult. She shook his shoulder.
"Ken, get up. There's word that
we've repeated."
"What?"
`The Message has cycled back. Or at least
that's what Willie says. I'm on my way there. Why don't you wait another ten
minutes so we can pretend you were in your room in BSQ?"
She was
almost at the door before he shouted after her, "How can we recycle? We
haven't gotten the primer yet."
Racing across the screens was a paired
sequence of zeros and ones, a real-time comparison of the data just being
received and the data from an early page of text received at Argus a year
before. The program would have culled out any differences. So far, there were
none. It reassured them that they had not mistranscribed, that there were no
apparent transmission errors, and that if some small dense interstellar cloud
between Vega and the Earth was able to eat the occasional zero or one, this was
an infrequent occurrence. Argus was by now in real-time communication with
dozens of other telescopes that were part of the World Message Consortium, and
the news of recycling was passed on to the next observing stations westward, to
California, Hawaii, the Marshal Nedelin now in the South Pacific, and to
Sydney. Had the discovery been made when Vega was over one of the other
telescopes in the network, Argus would have been informed instantly.
The absence of the primer was an
agonizing disappointment, but it was not the only surprise. The Message page
numbers had jumped discontinuously from the 40,000s to the 10,000s, where
recycling had been uncovered. Evidently Argus had discovered the transmission
from Vega almost at the moment it first arrived at Earth. It was a remarkably
strong signal, and would have been picked up even by small omni directional
telescopes. But it was a surprising coincidence that the broadcast should
arrive at Earth at the very moment Argus was looking at Vega. Also, what did it
mean for the text to begin on a page in the 10,000s? Were there 10,000 pages of
text missing? Was it a backward practice of the provincial Earth to start
numbering books on page I? Were these sequential numbers perhaps not page
numbers but something else? Or--and this worried Ellie the most--was there some
fundamental and unexpected difference between how humans thought of things and
how the aliens thought? If so, it would have worrisome implications about the
ability of the Consortium to understand the Message, primer or no primer.
The Message repeated exactly, the gaps
were all filled in and nobody could read a word of it. It seemed unlikely that
the transmitting civilization, meticulous in all else, had simply overlooked
the need for a primer.
At least the Olympic broadcast and the
interior design of the Machine seemed to be tailored specifically for humans.
They would hardly go to all this trouble to devise and transmit the Message
without making some provision for humans to read it. So humans must have
overlooked something. It soon became generally agreed that somewhere was a
fourth layer to the palimpsest. But where?
The diagrams were published in an eight
volume "coffee table" book set that was soon reprinted worldwide. All
over the planet people tried to figure out the pictures. The dodecahedron and
the quasi-biological forms were especially evocative. Many clever suggestions
were made by the public and carefully sifted by the Argus team. Many
harebrained interpretations were also widely available, especially in weekly
newspapers. Whole new industries developed--doubtless unforeseen by those who
devised the Message--dedicated to using the diagrams to bilk the public. The
Ancient and Mystical Order of the Dodecahedron was announced.
The Machine was a UFO. The Machine was
Ezekiel's Wheel. An angel revealed the meaning of the Message and the diagrams
to a Brazilian businessman, who distributed--at first, at his own expense--his
interpretation worldwide. With so many enigmatic diagrams to interpret, it was
inevitable that many religions would recognize some of their iconography in the
Message from the stars. A principal cross section of the Machine looked
something like a chrysanthemum, a fact that stirred great enthusiasm in Japan.
If there had been an image of a human face among all the diagrams, messianic
fervor might have reached a flash point.
As it was, a surprisingly large number of
people were winding up their affairs in preparation for the Advent. Industrial
productivity was off worldwide. Many had given away all their possessions to
the poor and then, as the end of the world was delayed, were obliged to seek
help from a charity or the State. Because gifts of this sort constituted a
major fraction of the resources of such charities, some of the philanthropists
ended up being supported by their own gifts. Delegations approached government
leaders to urge that schistosomiasis, say, or world hunger be ended by the
Advent; otherwise there was no telling what would happen to us. Others
counseled, more quietly, that if there was a decade of real world madness in
the offing, there must be a considerable monetary or national advantage in it
somewhere.
Some said that there was no primer, that
the whole exercise was to teach humans humility, or to drive us mad. There were
newspaper editorials on how we're not as smart as we think we are, and some
resentment directed at the scientists who, after all the support given to them
by the governments, have failed us in our time of need. Or maybe humans are
much dumber than the Vegans gave us credit for. Maybe there was some point that
had been entirely obvious to all previous emerging civilizations so contacted,
something no one in the history of the Galaxy had ever missed before. A few
commentators embraced this prospect of cosmic humiliation with real enthusiasm.
It demonstrated what they'd been saying about people all along. After a while,
Ellie decided that she needed help.
They entered surreptitiously through the
Enlil Gate, with an escort dispatched by the Proprietor. The General Services
Administration security detail was edgy despite, or perhaps because of, the
additional protection.
Although there was a little sunlight
still left, the dirt streets were lit by braziers, oil lamps, and an occasional
guttering torch. Two amphoras, each large enough to contain an adult human
being, flanked the entrance to a retail olive oil establishment. The
advertising was in cuneiform. On an adjacent public building was a magnificent
bas relief of a lion hunt from the reign of Assurbanipal. As they approached
the Temple of Assur, there was a scuffle in the crowd, and her escort made a
wide berth. She now had an unobstructed view of the Ziggurat down a wide
torchlit avenue. It was more breathtaking than in the pictures. There was a
martial flourish on an unfamiliar brass instrument; three men and a horse
clattered by, the charioteer in Phrygian headdress. As in some medieval
rendition of a cautionary tale from the book of Genesis, the top of the
Ziggurat was enveloped in low twilit clouds. They left the Ishtarian Way and
entered the Ziggurat through a side street. In the private elevator, her escort
pressed the button for the topmost floor: "Forty," it read. No
numerals. Just the word. And then, to leave no room for doubt, a glass panel
flashed, `The Gods."
Mr. Hadden would be with her shortly.
Would she like something to drink while she waited? Considering the reputation
of the place, Ellie demurred. Babylon lay spread out before her--magnificent,
as everyone said, in its recreation of a long gone time and place. During
daylight hours busloads from museums, a very few schools, and the tourist
agencies would arrive at the Ishtar Gate, don appropriate clothes, and travel
back in time. Hadden wisely donated all profits from his daytime clientele to
New York City and Long Island charities. The daytime tours were immensely
popular, in part because it was a respectable opportunity to look the place
over for those who would not dream of visiting Babylon at night. Well, maybe
they would dream.
After dark, Babylon was called an adult
amusement park. It was of an opulence, scale, and imaginativeness that dwarfed,
say, the Reeperbahn in Hamburg. It was by far the largest tourist attraction in
the New York metropolitan area, with by far the largest gross revenues. How
Hadden had been able to convince the city fathers of Babylon, New York, and how
he had lobbied for an "easement" of local and state prostitution laws
was well known. It was now a half hour train ride from midtown Manhattan to the
Ishtar Gate. Ellie had insisted on taking this train, despite the entreaties of
the security people, and had found almost a third of the visitors to be women.
There were no graffiti, little danger of mugging, but a much inferior brand of
white noise compared with the conveyances of the New York City subway system.
Although Hadden was a member of the
National Academy of Engineering, he had never, so far as Ellie knew, attended a
meeting, and she had never set eyes on him. His face became well known to
millions of Americans, however, years before as a result of the Advertising
Council's campaign against him: `The Unamerican" had been the caption
under an unflattering portrait of Hadden. Even so, she was taken aback when in
the midst of her reverie by the slanted glass wall she was interrupted by a
small, fat beckoning person.
"Oh. Sorry. I never understand how
anyone can be afraid of me."
His voice was surprisingly musical. In
fact, he seemed to talk in fifths. He hadn't thought it necessary to introduce
himself and once again inclined his head to the door he had left ajar. It was
hard to believe that some crime of passion was about to be visited upon her
under these circumstances, and wordlessly she entered the next room.
He ushered her to a meticulously crafted
tabletop model of an ancient city of less pretentious aspect than Babylon
"Pompeii," he said by way of explanation. "The stadium here is
the key. With the restrictions on boxing there aren't any healthy blood sports
left in America. Very important. Sucks out some of the poisons from the
national bloodstream. The whole thing is designed, permits issued, and now
this."
"What's `this'?"
"No gladiatorial games. I just got
word from Sacramento. There's a bill before the legislature to outlaw
gladiatorial games in California. Too violent, they say. They authorize a new
skyscraper, they know they'll lose two or three construction workers. The
unions know, the builders know, and that's just to build offices for oil
companies or Beverly Hills lawyers. Sure, we'd lose a few. But we're geared
more to trident and net than the short sword. Those legislators don't have
their priorities straight."
He beamed at her owlishly and offered a
drink, which again she refused. "So you want to talk to me about the
Machine, and I want to talk to you about the Machine. You first. You want to
know where the primer is?"
"We're asking for help from a few
key people who might have some insight. We thought with your record of
invention--and since your context recognition chip was involved in the
recycling discovery--that you might put yourself in the place of the Vegans and
think of where you'd put the primer. We recognize you're very busy, and I'm
sorry to--"
"Oh, no. It's all right. It's true
I'm busy. I'm trying to regularize my affairs, because I'm gonna make a big
change in my life..."
"For the Millennium?" She tried
to imagine him giving away S. R. Hadden and Company, the Wall Street brokerage
house; Genetic Engineering, Inc.; Hadden Cybernetics; and Babylon to the poor.
"Not exactly. No. It was fun to
think about. It made me feel good to be asked. I looked at the diagrams."
He waved at the commercial set of eight volumes spread in disarray on a
worktable. "There are wonderful things in there, but I don't think that's
where the primer is hiding. Not in the diagrams. I don't know why you think the
primer has to be in the Message. Maybe they left it on Mars or Pluto or in the
Oort Comet Cloud, and well discover it in a few centuries. Right now, we know
there's this wonderful Machine, with design drawings and thirty thousand pages
of explanatory text. But we don't know whether we'd be able to build the thing
if we could read it. So we wait a few centuries, improving our technology,
knowing that sooner or later we'll have to be ready to build it. Not having the
primer binds us up with future generations.
Human beings are sent a problem that
takes generations to solve. I don't think that's such a bad thing. Might be
very healthy. Maybe you're making a mistake looking for a primer. Maybe it's
better not to find it."
"No, I want to find the primer right
away. We don't know it'll be waiting for us forever. If they hang up because
there was no answer, it would be much worse than if they'd never called at
all."
"Well, maybe you have a point.
Anyway, I thought of as many possibilities as I could. I'll give you a couple
of trivial possibilities, and then a nontrivial possibility. Trivial first: The
primer's in the Message but at a very different data rate. Suppose there was
another message in there at a bit an hour--could you detect that?"
"Absolutely. We routinely check for
long term receiver drift in any case. But also a bit an hour only buys you--let
me see--ten, twenty thousand bits tops before the Message recycles."
"So that makes sense only if the
primer is much easier than the Message. You think it isn't. Now, what about
much faster bit rates? How do you know that under every bit of your Machine
Message there aren't a million bits of primer message?"
"Because it would produce monster
bandwidths. We'd know in an instant."
"Okay, so there's a fast data dump
every now and then. Think of it as microfilm. There's a tiny dot of microfilm
that's sitting in repetitious--I mean in repetitive--parts of the Message. I'm
imagining a little box that says in your regular language, `I am the primer.'
Then right after that there's a dot. And in that dot is a hundred million bits,
very fast. You might see if you've got any boxes."
"Believe me, we would have seen
it."
"Okay, how about phase modulation?
We use it in radar and spacecraft telemetry, and it hardly messes up the
spectrum at all. Have you hooked up a phase correlator?"
"No. That's a useful idea. I'll look
into it."
"Now, the nontrivial idea is this:
If the Machine ever gets made, if our people are gonna sit in it, somebody's
gonna press a button and then those five are gonna go somewhere. Never mind
where. Now, there's an interesting question whether those five are gonna come
back. Maybe not. I like the idea that all this Machine design was invented by
Vegan body snatchers. You know, their medical students, or anthropologists or
something. They need a few human bodies. It's a big hassle to come to
Earth--you need permission, passes from the transit authority--hell, it's more
trouble than it's worth. But with a little effort you can send the Earth a
Message and then the earthlings'll go to all the trouble to ship you five
bodies.
"It's like stamp collecting. I used
to collect stamps when I was a kid. You could send a letter to somebody in a
foreign country and most of the time they'd write back. It didn't matter what
they said. All you wanted was the stamp. So that's my picture: There's a few
stamp collectors on Vega. They send letters out when they're in the mood, and
bodies come flying back to them from all over space. Wouldn't you like to see
the collection?"
He smiled up at her and continued.
"Okay, so what does this have to do with finding the primer? Nothing. It's
relevant only if I'm wrong. If my picture is wrong, if the five people are
coming back to Earth, then it would be a big help if we've invented space
flight. No matter how smart they are, it's gonna be tough to land the Machine.
Too many things are moving. God knows what the propulsion system is. If you pop
out of space a few meters below ground, you've had it. And what's a few meters
in twenty-six light years? It's too risky. When the Machine comes back it'll
pop out--or whatever it does--in space, somewhere near the Earth, but not on it
or in it. So they have to be sure we have space flight, so the five people can
be rescued in space. They're in a hurry and can't sit tight until the 1957
evening news arrives on Vega. So what do they do? They arrange so part of the
Message can only be detected from space. What part is that? The primer. If you
can detect the primer, you've got space flight and you can come back safe. So I
imagine the primer is being sent at the frequency of the oxygen absorptions in
the microwave spectrum, or in the near-infrared -- some part of the spectrum
you can't detect until you're well out of the Earth's atmosphere..."
"We've had the Hubble Telescope
looking at Vega all through the ultraviolet, visible, and near-infrared. Not a
hint of anything. The Russians have repaired their millimeter wave instrument.
They've hardly been looking at anything besides Vega and they haven't found
anything. But we'll keep looking. Other possibilities?"
"Sure you wouldn't like a drink? I
don't drink myself, but so many people do." Ellie again declined.
"No, no other possibilities. Now it's my turn?
"See, I want to ask you for
something. But I'm not good at asking for things. I never have been. My public
image is rich, funny looking, unscrupulous--somebody who looks for weaknesses
in the system so he can make a fast buck. And don't tell me you don't believe
any of that. Everybody believes at least some of it. You've probably heard some
of what I'm gonna say before, but give me ten minutes and I'll tell you how all
this began. I want you to know something about me."
She settled back, wondering what he could
possibly want of her, and brushed away idle fantasies involving the Temple of
Ishtar, Hadden, and perhaps a charioteer or two thrown in for good measure.
Years before, he had invented a module
that, when a television commercial appeared, automatically muted the sound. It
wasn't at first a context recognition device. Instead, it simply monitored the
amplitude of the carrier wave. TV advertisers had taken to running their ads
louder and with less audio clutter than the programs that were their nominal
vehicles. News of Hadden's module spread by word of mouth. People reported a
sense of relief, the lifting of a great burden, even a feeling of joy at being
freed from the advertising barrage for the six to eight hours out of every day
that the average American spent in front of the television set. Before there
could be any coordinated response from the television advertising industry,
Adnix had become wildly popular. It forced advertisers and networks into new
choices of carrier wave strategy, each of which Hadden countered with a new
invention. Sometimes he invented circuits to defeat strategies that the
agencies and the networks had not yet hit upon. He would say that he was saving
them the trouble of making inventions, at great cost to their shareholders,
which were at any rate doomed to failure. As his sales volume increased, he
kept cutting prices. It was a kind of electronic warfare. And he was winning.
They tried to sue him--something about a
conspiracy in restraint of trade. They had sufficient political muscle that his
motion for summary dismissal was denied, but insufficient influence to actually
win the case. The trial had forced Hadden to investigate the relevant legal
codes. Soon after, he applied, through a well known Madison Avenue agency in
which he was now a major silent partner, to advertise his own product on
commercial television. After a few weeks of controversy his commercials were
refused. He sued all three networks and in this trial was able to prove conspiracy
in restraint of trade. He received a huge settlement that was, at the time, a
record for cases of this sort, and which contributed in its modest way to the
demise of the original networks.
There had always been people who enjoyed
the commercials, of course, and they had no need for Adnix. But they were a
dwindling minority. Hadden made a great fortune by eviscerating broadcast
advertising. He also made many enemies.
By the time context recognition chips
were commercially available, he was ready with Preachnix, a submodule which
could be plugged into Adnix. It would simply switch channels if by chance a
doctrinaire religious program should be tuned in. You could preselect key
words, such as "Advent" or "Rapture," and cut great swaths
through the available programming. Preachnix was a godsend for a long suffering
but significant minority of television viewers. There was talk, some of it
half-serious, that Hadden's next submodule would be called Jivenix, and would
work only on public addresses by presidents and premiers.
As he further developed context
recognition chips, it became obvious to him that they had much wider
applications--from education, science, and medicine, to military intelligence
and industrial espionage. It was on this issue that the lines were drawn for
the famous suit United States v. Hadden Cybernetics. One of Hadden's chips was
considered too good for civilian life, and on recommendation of the National
Security Agency, the facilities and key personnel for the most advanced context
recognition chip production were taken over by the government. It was simply
too important to read the Russian mail. God knows, they told him, what would
happen if the Russians could read our mail.
Hadden refused to cooperate in the takeover
and vowed to diversify into areas that could not possibly be connected with
national security. The government was nationalizing industry, he said. They
claimed to be capitalists, but when push came to shove they showed their
socialist face. He had found an unsatisfied public need and employed an
existing and legal new technology to deliver what they wanted. It was classic
capitalism. But there were many sober capitalists who would tell you that he
had already gone too far with Adnix, that he had posed a real threat to the
American way of life. In a dour column signed V. Petrov, Pravda called it a
concrete example of the contradictions of capitalism. The Wall Street Journal
countered, perhaps a little tangentially, by calling Pravda, which in Russian means
"truth," a concrete example of the contradictions of communism.
He suspected that the takeover was only a
pretext, that his real offense had been to attack advertising and video
evangelism. Adnix and Preachnix were the essence of capitalist entrepreneurship,
he argued repeatedly. The point of capitalism was supposed to be providing
people with alternatives.
"Well, the absence of advertising is
an alternative, I told them. There are huge advertising budgets only when
there's no difference between the products. If the products really were
different, people would buy the one that's better. Advertising teaches people
not to trust their judgment. Advertising teaches people to be stupid. A strong
country needs smart people. So Adnix is patriotic. The manufacturers can use
some of their advertising budgets to improve their products. The consumer will
benefit. Magazines and newspapers and direct mail business will boom, and
that'll ease the pain in the ad agencies. I don't see what the problem is."
Adnix, much more than the innumerable
libel suits against the original commercial networks, led directly to their
demise. For a while there was a small army of unemployed advertising
executives, down-and-out former network officials, and penniless divines who
had sworn blood oaths to revenge themselves on Hadden. And there was an ever
growing number of still more formidable adversaries. Without a doubt, she
thought, Hadden was an interesting man.
"So I figure it's time to go. I've
got more money than I know what to do with, my wife can't stand me, and I've
got enemies everywhere. I want to do something important, something worthy. I
want to do something so that hundreds of years from now people will look back
and be glad I was around."
"You want--"
"I want to build the Machine. Look,
I'm perfectly suited for it. I've got the best cybernetics expertise, practical
cybernetics, in the business -- better than Camegie-Mellon, better than MIT,
better than Stanford, better than Santa Barbara. And if there's anything clear
from those plans, it's that this isn't a job for an old-time tool-and-die
maker. And you're going to need something like genetic engineering. You won't
find anybody more dedicated to this job. And I'll do it at cost."
"Really, Mr. Hadden, who builds the Machine, if we ever get
to that point, isn't up to me. It's an international decision. All sorts of
politics is involved. They're still debating in Paris about whether to build
the thing, if and when we decrypt the Message."
"Don't you think I know that? I'm
also applying through the usual channels of influence and corruption. I just
want to have a good word put in for me for the right reasons, by the side of
the angels. You understand? And speaking of angels, you really shook up Palmer
Joss and Billy Jo Rankin. I haven't seen them so agitated since that trouble
they had about Mary's waters. Rankin saying he was deliberately misquoted about
supporting the Machine. My, my."
He shook his head in mock consternation.
That some long standing personal enmity existed between these active
proselytizers and the inventor of Preachnix seemed probable enough, and for
some reason she was moved to their defense.
"They're both a lot smarter than you
might think. And Palmer Joss is...well, there's something genuine about him.
He's not a phony."
"You're sure it's not just another
pretty face? Excuse me, but it's important that people understand their
feelings on this. It's too important not to. I know these clowns. Underneath,
when push comes to shove, they're jackals. A lot of people find religion
attractive--you know, personally, sexually. You ought to see what happens in
the Temple of Ishtar."
She repressed a small shiver of
revulsion. "I think I will have that drink," she said.
Looking down from the penthouse, she
could see the gradated tiers of the Ziggurat, each draped with flowers, some
artificial, some real, depending on the season. It was a reconstruction of the
Hanging Gardens of Babylon, one of the Seven Wonders of the Ancient World.
Miraculously, it was so arranged that it did not closely resemble a Hyatt
Hotel. Far below, she could make out a torchlit procession headed back from the
Ziggurat to the Enlil Gate. It was led by a kind of sedan chair held by four
burly men stripped to the waist. Who or what was in it she could not make out.
"It's a ceremony in honor of
Gilgamesh, one of the ancient Sumerian culture heroes."
"Yes, I've heard of him."
CHAPTER 14
Harmonic
Oscillator
Scepticism
is the chastity of the intellect, and it is shameful to surrender it too soon
or to the first comer: there is nobility in preserving it coolly and proudly
through long youth, until at last, in the ripeness of instinct and discretion,
it can be safely exchanged for fidelity and happiness.
-GEORGE SANTAYANA Scepticism and Animal
Faith, IX
IT WAS on
a mission of insurgency and subversion. The enemy was vastly larger and more
powerful. But it knew the enemy's weakness. It could take over the alien
government, turning the resources of the adversary to its own purpose. Now,
with millions of dedicated agents in place...
She sneezed and tried to find a clean
paper tissue in the bulging pocket of the terry cloth presidential bathrobe.
She had no makeup on, although her chapped lips revealed patches of mentholated
balm.
"My doctor tells me I have to stay
in bed or I'll get viral pneumonia. I ask him for an antibiotic, and he tells
me there's no antibiotic for viruses. So how does he know I have a virus?"
Der Heer opened his mouth to answer, a
gesture in the making, when the President cut him short.
"No, never mind. You'll start
telling me about DNA and host recognition and I'll need what resources I've got
left to listen to your story. If you're not afraid of my virus, pull up a
chair."
`Thank you, Ms. President. This is about
the primer. I have the report here. There's a long technical section that's
included as an appendix. I thought you might be interested in it also. Briefly,
we're reading and actually understanding the thing with almost no difficulty.
It's a fiendishly clever learning program. I don't mean `fiendishly' in any
literal sense, of course. We must have a vocabulary of three thousand words by
now."
"I don't understand how it's
possible. I could see how they could teach you the names of their numbers. You
make one dot and write the letters O-N-E underneath, and so on. I could see how
you could have a picture of a star and then write S-T-A-R under it. But I don't
see how you could do verbs or the past tense or conditionals."
`They do some of it with movies. Movies
are perfect for verbs. And a lot of it they do with numbers. Even abstractions;
they can communicate abstractions with numbers. It goes something like this:
First they count out the numbers for us, and then they introduce some new
words--words we don't understand. Here, I’ll indicate their words by letters.
We read something like this (the letters stand for symbols the Vegans introduce)."
He wrote:
1A1B2Z 1A2B3Z 1A7B8Z
"What do you think it is?"
"My high school report card? You
mean there's a combination of dots and dashes that A stands for, and a
different combination of dots and dashes that B stands for, and so on?"
"Exactly. You know what one and two
mean, but you don't know what A and B mean. What does a sequence like this tell
you?"
"A means `plus' and B means
`equals.' Is that what you're getting at?"
"Good. But we don't yet understand what
Z means, right? Now along comes something like this": 1A2B4Y "You
see?"
"Maybe. Give me another that ends in
Y."
2000A4000B0Y
"Okay, I think I got it. As long as
I don't read the last three symbols as a word. Z means it's true, and Y means
it's false."
"Right. Exactly. Pretty good for a
President with a virus and a South African crisis. So with a few lines of text
they've taught us four words: plus, equals, true, false. Four pretty useful
words. Then they teach division, divide one by zero, and tell us the word for
infinity. Or maybe it's just the word for indeterminate.
Or they say, The sum of the interior
angles of a triangle is two right angles.' Then they comment that the statement
is true if space is flat, but false if space is curved. So you've learned how
to say `if and--"
"I didn't know space was curved.
Ken, what the hell are you talking about? How can space be curved? No, never
mind, never mind. That can't have anything to do with the business in front of
us."
"Actually..."
"Sol Hadden tells me it was his idea
where to find the primer. Don't look at me funny, der Heer. I talk to all
types."
"I didn't mean...ah...As I
understand it, Mr. Hadden volunteered a few suggestions, which had all been made
by other scientists as well. Dr. Arroway checked them out and hit paydirt with
one of them. It's called phase modulation, or phase coding."
"Yes. Now, is this correct. Ken? The
primer is scattered throughout the Message, right? Lots of repetitions. And
there was some primer shortly after Arroway first picked up the signal."
"Shortly after she picked up the
third layer of the palimpsest, the Machine design."
"And many countries have the
technology to read the primer, right?"
"Well, they need a device called a
phase correlator. But, yes. The countries that count, anyway."
"Then the Russians could have read
the primer a year ago, right? Or the Chinese or the Japanese. How do you know
they're not halfway to building the Machine right now?"
"I thought of that, but Marvin Yang
says it's impossible. Satellite photography, electronic intelligence, people on
the scene, all confirm that there's no sign of the kind of major construction
project you'd need to build the Machine. No, we've all been asleep at the
switch. We were seduced by the idea that the primer had to come at the
beginning and not interspersed through the Message. It's only when the Message
recycled and we discovered it wasn't there that we started thinking of other
possibilities. All this work has been done in close cooperation with the
Russians and everybody else. We don't think anybody has the jump on us, but on
the other hand everybody has the primer now. I don't think there's any
unilateral course of action for us."
"I don't want a unilateral course of
action for us. I just want to make sure that nobody else has a unilateral
course of action. Okay, so back to your primer. You know how to say true-false,
if-then, and space is curved. How do you build a Machine with that?"
"You know, I don't think this cold
or whatever you've got has slowed you down a bit. Well, it just takes off from
there. For example, they draw us a periodic table of the elements, so they get
to name all the chemical elements, the idea of a atom, the idea of a nucleus,
protons, neutrons, electrons. Then they run through some quantum mechanics just
to make sure we're paying attention--there are already some new insights for us
in the remedial stuff. Then it starts concentrating on the particular materials
needed for the construction. For example, for some reason we need two tons of
erbium, so they run through a nifty technique to extract it from ordinary
rocks."
Der Heer raised his hand palm outward in
a placatory gesture. "Don't ask why we need two tons of erbium. Nobody has
the faintest idea."
"I wasn't going to ask that. I want
to know how they told you how much a ton is."
"They counted it out for us in
Planck masses. A Planck mass is--"
"Never mind, never mind. It's
something that physicists all over the universe know about, right? And I've
never heard of it. Now, the bottom line. Do we understand the primer well
enough to start reading the Message? Will we be able to build the thing or
not?"
"The answer seems to be yes. We've
only had the primer for a few weeks now, but whole chapters of the Message are
falling into our lap in clear. Its painstaking design, redundant explanations,
and as far as we can tell, tremendous redundancy in the Machine design. We should
have a three-dimensional model of the Machine for you in time for that crew
selection meeting on Thursday, if you feel up to it. So far, we haven't a clue
as to what the Machine does, or how it works. And there are some funny organic
chemical components that don't make any sense as part of a machine. But almost
everybody seems to think we can build the thing."
"Who doesn't?"
"Well, Lunacharsky and the Russians.
And Billy Jo Rankin, of course. There are still people who worry that the Machine
will blow up the world or tip the Earth's axis, or something. But what's
impressed most of the scientists is how careful the instructions are, and how
many different ways they go about trying to explain the same thing."
"And what does Eleanor Arroway
say?"
"She says if they want to do us in,
they'll be here in twenty-five years or so and there's nothing we could do in
twenty-five years to protect ourselves. They're too far ahead of us. So she
says. Build it, and if you're worried about environmental hazards, build it in
a remote place. Professor Drumlin says you can build it in downtown Pasadena
for all he cares. In fact, he says he'll be there every minute it takes to
construct the Machine, so he'll be the first to go if it blows up."
"Drumlin, he's the fellow who
figured out that this was the design for a Machine, right?"
"Not exactly, he-"
"I'll read all the briefing material
in time for that Thursday meeting. You got anything else for me?"
"Are you seriously considering
letting Hadden build the Machine?"
"Well, it's not only up to me, as
you know. That treaty they're hammering out in Paris gives us about a one
quarter say. The Russians have a quarter, the Chinese and the Japanese together
have a quarter, and the rest of the world has a quarter, roughly speaking. A
lot of nations want to build the Machine, or at least parts of it. They're
thinking about prestige, and new industries, new knowledge. As long as no one
gets a jump on us, that all sounds fine to me. It's possible Hadden might have
a piece of it. What's the problem? Don't you think he's technically
competent?"
"He certainly is. It's just--"
"If there's nothing more, Ken, I'll
see you Thursday, virus willing."
As der Heer was shutting the door and
entering the adjacent sitting room, there was an explosive presidential sneeze.
The Warrant Officer of the Day, sitting stiffly on a couch, was visibly
startled. The briefcase at his feet was crammed with authorization codes for
nuclear war. Der Heer calmed him with a repetitive gesture of his hand, fingers
spread, palm down. The officer gave an apologetic smile.
"That's Vega? That's what all the
fuss is about?" the President asked with some disappointment. The photo
opportunity for the press was now over, and her eyes had become almost dark
adapted after the onslaught of flashbulbs and television lighting. The pictures
of the President gazing steely-eyed through the Naval Observatory telescope
that appeared in all the papers the next day were, of course, a minor sham. She
had been unable to see anything at all through the telescope until the
photographers had left and darkness returned. "Why does it wiggle?"
"It's turbulence in the air, Ms.
President," der Heer explained. "Warm bubbles of air go by and
distort the image."
"Like looking at Si across the
breakfast table when there's a toaster between us. I can remember seeing one
whole side of his face fall off," she said affectionately, raising her
voice so the presidential consort, standing nearby talking to the uniformed
Commandant of the Observatory, could overhear.
"Yeah, no toaster on the breakfast
table these days," he replied amiably.
Seymour Lasker was before his retirement
a high official of the International Ladies Garment Workers Union. He had met
his wife decades before when she was representing the New York Girl Coat
Company, and they had fallen in love over a protracted labor settlement.
Considering the present novelty of both their positions, the apparent health of
their relationship was noteworthy.
"I can do without the toaster, but
I'm not getting enough breakfasts with Si." She inflected her eyebrows in
his general direction, and then returned to the monocular eyepiece. "It
looks like a blue amoeba, all... squishy."
After the difficult crew selection
meeting, the President was in a lighthearted frame of mind. Her cold was almost
gone.
"What if there was no turbulence,
Ken? What would I see then?"
"Then it would be just like Space Telescope
above the Earth's atmosphere. You'd see a steady, unflickering point of
light."
"Just the star? Just Vega? No
planets, no rings, no laser battle stations?"
"No, Ms. President. All that would
be much too small and faint to see even with a very big telescope."
"Well, I hope your scientists know
what they're doing," she said in a near whisper. "We're making an
awful lot of commitments on something we've never seen."
Der Heer was a little taken aback.
"But we've seen thirty-one thousand pages of text--pictures, words, plus a
huge primer."
"In my book, that's not the same as
seeing it. It's a little too...inferential. Don't tell me about scientists all
over the world getting the same data. I know all that. And don't tell me about
how clear and unambiguous the blueprints for the Machine are. I know that too.
And if we back out, someone else is sure to build the Machine. I know all those
things. But I'm still nervous."
The party ambled back through the Naval
Observatory compound to the Vice President's residence.
Tentative agreements on crew selection
had been painstakingly worked out in Paris in the last weeks. The United States
and the Soviet Union had argued for two crew positions each; on such matters
they were reliable allies. But it was hard to sustain this argument with the
other nations in the World Message Consortium. These days it was much more
difficult for the United States and the Soviet Union--even on issues on which
they agreed--to work their way with the other nations of the world than had
once been the case.
The enterprise was now widely touted as
an activity of the human species. The name "World Message Consortium"
was about to be changed to "World Machine Consortium." Nations with
pieces of the Message tried to use this fact as an entree for one of their
nationals as a member of the crew. The Chinese had quietly argued that by the
middle of the next century there would be one and a half billion of them in the
world, but with many born as only children because of the Chinese experiment on
state supported birth control. Those children, once grown, would be brighter,
they predicted, and more emotionally secure than children of other nations with
less stringent rules on family size. Since the Chinese would thus be playing a
more prominent role in world affairs in another fifty years, they argued, they
deserved at least one of the five seats on the Machine. It was an argument now
being discussed in many nations by officials with no responsibility for the
Message or the Machine.
Europe and Japan surrendered crew
representation in exchange for major responsibility for the construction of
Machine components, which they believed would be of major economic benefit. In
the end, a seat was reserved for the United States, the Soviet Union, China,
and India, with the fifth seat undecided. This represented a long and difficult
multilateral negotiation, with population size, economic, industrial, and
military power, present political alignments, and even a little of the history
of the human species as considerations.
For the fifth seat, Brazil and Indonesia
made representations based on population size and geographical balance; Sweden
proposed a moderating role in case of political disputes; Egypt, Iraq, Palostan
and Saudi Arabia argued on grounds of religious equity. Others suggested that
at least this fifth seat should be decided on grounds of individual merit
rather than national affiliation. For the moment, the decision was left in
limbo, a wild card for later.
In the four selected nations, scientists,
national leaders, and others were going through the exercise of choosing their
candidates. A kind of national debate ensued in the United States. In surveys
and opinion polls, religious leaders, sports heroes, astronauts, Congressional
Medal of Honor winners, scientists, movie actors, a former presidential spouse,
television talk show hosts and news anchors, members of Congress, millionaires
with political ambitions, foundation executives, singers of country-and-western
and rock-and-roll music, university presidents, and the current Miss America
were all endorsed with varying degrees of enthusiasm.
By long tradition, ever since the Vice
President's residence was moved to the grounds of the Naval Observatory, the
house servants had been Filipino petty officers on active duty in the U.S.
Navy. Wearing smart blue blazers with a patch embroidered "Vice President
of the United States," they were now serving coffee. Most of the
participants in the all day crew selection meeting had not been invited to this
informal evening session.
It had been Seymour Lasker's singular
fate to be America's first First Gentleman. He bore his burden--the editorial cartoons,
the smarmy jokes, the witticism that he had gone where no man had gone
before--with such directness and good nature that at last America was able to
forgive him for marrying a woman with the nerve to imagine that she could lead
half the world. Lasker had the Vice President's wife and teenaged son laughing
uproariously as the President guided der Heer into an adjacent library annex.
"All right," she began.
`There's no official decision to be made today and no public announcement of
our deliberations. But let's see if we can sum up. We don't know what the
goddamn Machine will do, but it's a reasonable guess that it goes to Vega.
Nobody has the slightest idea of how it would work or even how long it would
take. Tell me again, how far away is Vega?" `Twenty-six light-years, Ms.
President."
"And so if this Machine were a kind
of spaceship and could travel as fast as light--I know it can't travel as fast
as light, only close to it, don't interrupt--then it would take twenty-six
years for it to get there, but only as we measure time here on Earth. Is that
right, der Heer?"
"Yes. Exactly. Plus maybe a year to
get up to light speed and a year to decelerate into the Vega system. But from
the standpoint of the crew members, it would take a lot less. Maybe only a
couple of years, depending on how close to light speed they travel."
"For a biologist, der Heer, you've
been learning a lot of astronomy."
`Thank you, Ms. President. I've tried to
immerse myself in the subject."
She stared at him for just a moment and
then went on. "So as long as the Machine goes very close to the speed of
light, it might not matter much how old the crew members are. But if it takes
ten or twenty years or more--and you say that's possible--then we ought to have
somebody young. Now, the Russians aren't buying this argument. We understand
it's between Arkhangelsky and Lunacharsky, both in their sixties."
She had read the names somewhat haltingly
off a file card in front of her.
"The Chinese are almost certainly
sending Xi. He's also in his sixties. So if I thought they knew what they're
doing, I'd be tempted to say, `What the hell, let's send a sixty year old
man.'"
Drumlin, der Heer knew, was exactly sixty
years old. "On the other hand..." he counterposed. "I know, I
know. The Indian doctor; she's in her forties....In a way, this is the
stupidest thing I ever heard of. We're picking somebody to enter the Olympics,
and we don't know what the events are. I don't know why we're talking about sending
scientists. Mahatma Gandhi, that's who we should send. Or, while we're at it,
Jesus Christ. Don't tell me they're not available, der Heer. I know that."
"When you don't know what the events
are, you send a decathlon champion."
"And then you discover the event is
chess, or oratory, or sculpture, and your athlete finishes last. Okay, you say
that it ought to be someone who's thought about extraterrestrial life and who's
been intimately involved with the receipt and decrypting of the Message."
"At least a person like that will be
intimately involved with how the Vegans think. Or at least how they expect us
to think."
"And for really top rate people, you
say that reduces the field to three."
Again she consulted her notes. "Arroway,
Drumlin, and...the one who thinks he's a Roman general."
"Dr. Valerian, Ms. President. I
don't know that he thinks he's a Roman general; it's just his name."
"Valerian wouldn't even answer the
Selection Committee's questionnaire. He wouldn't consider it because he won't
leave his wife? Is that right? I'm not criticizing him. He's no dope. He knows
how to make a relationship work. It's not that his wife is sick or
anything?"
"No, as far as I know, she's in
excellent health."
"Good. Good for them. Send her a
personal note from me--something about how she must be some woman for an
astronomer to give up the universe for her. But fancy up the language, der
Heer. You know what I want. And throw in some quotation. Poetry, maybe. But not
too gushy." She waved her index finger at him. "Those Valerians can
teach us all something. Why don't we invite them to a state dinner? The King of
Nepal's here in two weeks. That'll be about right."
Der Heer was scribbling furiously. He
would have to call the White House Appointments Secretary at home as soon as
this meeting was over, and he had a still more urgent call. He had not been
able to get to the telephone for hours. "So that leaves Arroway and
Drumlin. She's something like twenty years younger, but he's in terrific
physical shape. He hang glides, skydives, scuba dives...he's a brilliant
scientist, he helped in a big way to crack the Message, and he'll have a fine
time arguing with all the other old men. He didn't work on nuclear weapons, did
he? I don't want to send anybody who worked on nuclear weapons.
"Now, Arroway's also a brilliant
scientist. She's led this whole Argus Project, she knows all the ins and outs
of the Message, and she has an inquiring mind. Everybody says that her
interests are very broad. And she'd convey a younger American image." She
paused.
"And you like her, Ken. Nothing
wrong with that. I like her too. But sometimes she's a loose cannon. Did you
listen carefully to her questionnaire?"
"I think I know the passage you're
talking about, Ms. President. But the Selection Committee had been asking her
questions for almost eight hours and sometimes she gets annoyed at what she
considers dumb questions. Drumlin's the same way. Maybe she learned it from him.
She was his student for a while, you know."
"Yeah, he said some dumb things,
too. Here, it's supposed to be all cued up for us on this VCR. First Arroway's
questionnaire, then Drumlin's. Just press the `play' button, Ken."
On the television screen, Ellie was being
interviewed in her office at the Argus Project. He could even make out the
yellowing piece of paper with the quote from Kafka. Perhaps, all things
considered, Ellie would have been happier had she received only silence from
the stars. There were lines around her mouth and bags under her eyes. There
were also two unfamiliar vertical creases on her forehead just above her nose.
Ellie on videotape looked terribly tired, and der Heer felt a pang of guilt.
"What do I think of `the world
population crisis'?" Ellie was saying. "You mean am I for it or
against it? You think this is a key question I'm going to be asked on Vega, and
you want to make sure I give the right answer? Okay. Overpopulation is why I'm
in favor of homosexuality and a celibate clergy. A celibate clergy is an
especially good idea, because it tends to suppress any hereditary propensity
toward fanaticism."
Ellie waited, deadpan, indeed frozen, for
the next question. The President had pushed the "pause" button.
"Now, I admit that some of the questions may not have been
the best," the President continued. "But we didn't want anybody in
such a prominent position, on a project with really positive international
implications, who turns out to be some racist bozo. We want the developing
world on our side in this one. We had a good reason to ask a question like
that. Don't you find her answer shows some...lack of tact? She's a bit of a
wiseass, your Dr. Arroway. Now take a look at Drumlin."
Wearing a blue polka dot bow tie, Drumlin
was looking tanned and very fit. "Yes, I know we all have emotions,"
he was saying, "but let's bear in mind exactly what emotions are. They're
motivations for adaptive behavior from a time when we were too stupid to figure
things out. But I can figure out that if a pack of hyenas are headed toward me
with their fangs bared there's trouble ahead. I don't need a few cc's of
adrenaline to help me understand the situation. I can even figure out that it
might be important for me to make some genetic contribution to the next
generation. I don't really need testosterone in my bloodstream to help me
along. Are you sure that an extraterrestrial being far in advance of us is
going to be saddled with emotions? I know there are people who think I'm too
cold, too reserved. But if you really want to understand the extraterrestrials,
you'll send me. I'm more like them than anyone else you'll find."
"Some choice!" the President said.
`The one's an atheist, and the other thinks he's from Vega already. Why do we
have to send scientists? Why can't we send somebody...normal? Just a rhetorical
question," she quickly added. "I know why we have to send scientists.
The Message is about science and it's written in scientific language. Science
is what we know we share with the beings on Vega. No, those are good reasons,
Ken. I remember them."
"She's not an atheist. She's an
agnostic. Her mind is open. She's not trapped by dogma. She's intelligent,
she's tough, and she's very professional. The range of her knowledge is broad.
She's just the person we need in this situation."
"Ken, I'm pleased by your commitment
to uphold the integrity of this project. But there's a great deal of fear out
there. Don't think I don't know how much the men out there have had to swallow
already. More than half the people I talk to believe we've got no business
building this thing. If there's no turning back, they want to send somebody
absolutely safe. Arroway may be all the things you say she is, but safe she
isn't. I'm catching a lot of heat from the Hill, from the Earth Firsters, from
my own National Committee, from the churches. I guess she impressed Palmer Joss
in that California meeting, but she managed to infuriate Billy Jo Rankin. He
called me up yesterday and said `Ms. President'--he can't disguise his distaste
at saying `Ms.'-- 'Ms. President,' he says, `that Machine's gonna fly straight
to God or the Devil. Whichever one it is, you better send an honest-to-God
Christian.' He tried to use his relationship with Palmer Joss to muscle me, for
God's sake. I don't think there's any doubt he was angling to go himself.
Drumlin's going to be much more acceptable to somebody like Rankin than Arroway
is.
"I recognize Drumlin's something of a cold fish. But he's reliable,
patriotic, sound. He has impeccable scientific credentials. And he wants to go.
No, it has to be Drumlin. The best I can offer is to have her as backup."
"Can I tell her that?"
"We can't have Arroway knowing
before Drumlin, can we? I'll let you know the moment a final decision is made
and we've informed Drumlin....Oh, cheer up, Ken. Don't you want her to stay
here on Earth?"
It was after six when Ellie finished her
briefing of the State Department's `Tiger Team" that was backstopping the
American negotiators in Paris. Der Heer had promised to call her as soon as the
crew selection meeting was done. He wanted her to hear from him whether she had
been selected, not from anybody else. She had been insufficiently deferential
to the examiners, she knew, and might lose out for that reason among a dozen
others. Nevertheless, she guessed, there might still be a chance.
There was a message waiting for her at
the hotel--not a pink "while you were out" form filled in by the
hotel operator, but a sealed unstamped hand delivered letter. It read:
"Meet me at the National Science and Technology Museum, 8:00 pm tonight.
Palmer Joss."
No hello, no explanations, no agenda, and
no yours truly, she thought. This really is a man of faith. The stationery was
her hotel's, and there was no return address. He must have sauntered in this
afternoon, knowing from the Secretary of State himself, for all she knew, that
Ellie was in town, and expecting her to be in. It had been a tiresome day, and
she was annoyed at having to spend any time away from piecing together the
Message. Although a part of her was reluctant to go, she showered, changed,
bought a bag of cashews, and was in a taxi in forty-five minutes.
It was about an hour before closing, and
the museum was almost empty. Huge dark machinery was stuffed into every corner
of a vast entrance hall. Here was the pride of the nineteenth century
shoemaking, textile, and coal industries. A steam calliope from the 1876
Exposition was playing a jaunty piece, originally written for brass, she
judged, for a tourist group from West Africa. Joss was nowhere to be seen. She
suppressed the impulse to turn on her heel and leave.
If you had to meet Palmer Joss in this
museum, she thought, and the only thing you had ever talked to him about was
religion and the Message, where would you meet him? It was a little like the
frequency selection problem in SETI: You haven't yet received a message from an
advanced civilization and you have to decide on which frequencies these
beings--about whom you know virtually nothing, not even their existence--have
decided to transmit. It must involve some knowledge that both you and they
share. You and they certainly both know what the most abundant kind of atom in
the universe is, and the single radio frequency at which it characteristically
absorbs and emits. That was the logic by which the 1420 megahertz line of
neutral atomic hydrogen had been included in all the early SETI searches. What
would the equivalent be here? Alexander Graham Bell's telephone? The telegraph?
Marconi's-- Of course.
"Does this museum have a Foucault
pendulum?" she asked the guard.
The sound of her heels echoed on the
marble floors as she approached the rotunda. Joss was leaning over the railing,
peering at a mosaic tile representation of the cardinal directions. There were
small vertical hour marks, some upright, others evidently knocked down by the
bob earlier in the day. Around 7 PM. Someone had stopped its swing, and it now
hung motionless. They were entirely alone. He had heard her approach for a
minute at least and had said nothing.
"You've decided that prayer can stop
a pendulum?" She smiled.
`That would be an abuse of faith,"
he replied. "I don't see why. You'd make an awful lot of converts. It's
easy enough for God to do, and if I remember correctly, you talk to Him
regularly....That's not it, huh? You really want to test my faith in the
physics of harmonic oscillators? Okay."
A part of her was amazed that Joss would
put her through this test, but she was determined to pass muster. She let her
handbag slide off her shoulder and removed her shoes. He gracefully hurdled the
brass guardrail and helped her over. They half walked and half slid down the
tiled slope until they were standing alongside the bob. It had a dull black
finish, and she wondered whether it was made of steel or lead.
"You'll have to give me a
hand," she said. She could easily put her arms around the bob, and
together they wrestled it until it was inclined at a good angle from the
vertical and flush against her face. Joss was watching her closely. He didn't
ask her whether she was sure, he neglected to warn her about falling forward, he
offered no cautions about giving the bob a horizontal component of velocity as
she let go.
Behind her was a good meter or meter and
a half of level floor, before it started sloping upward to become a
circumferential wall. If she kept her wits about her, she said to herself, this
was a lead pipe cinch. She let go.
The bob fell away from her. The period of
a simple pendulum, she thought a little giddily, is 2 ?, square root L over g,
where L is the length of the pendulum and g is the acceleration due to gravity.
Because of friction in the bearing, the pendulum can never swing back farther
than its original position. All I have to do is not sway forward, she reminded
herself.
Near the opposite railing, the bob slowed
and came to a dead stop. Reversing its trajectory, it was suddenly moving much
faster than she had expected. As it careened toward her, it seemed to grow
alarmingly in size. It was enormous and almost upon her. She gasped.
"I flinched," Ellie said in
disappointment as the bob fell away from her. "Only the littlest
bit." "No, I flinched."
"You believe. You believe in
science. There's only a tiny smidgen of doubt."
"No, that's not it. That was a
million years of brains fighting a billion years of instinct. That's why your
job is so much easier than mine."
"In this matter, our jobs are the
same. My turn," he said, and jarringly grabbed the bob at the highest
point in its trajectory.
"But we're not testing your belief
in the conservation of energy."
He smiled and tried to dig in his feet.
"What you doin' down there?" a voice asked. "Are you folks
crazy?" A museum guard, dutifully checking that all visitors would leave
by closing time, had come upon this unlikely prospect of a man, a woman, a pit
and a pendulum in an otherwise deserted recess of the cavernous building.
"Oh, it's all right, officer,"
Joss said cheerfully. "We're just testing our faith."
"You can't do that in the
Smithsonian Institution," the guard replied. `This is a museum."
Laughing, Joss and Ellie wrestled the bob
to a nearly stationary position and clambered up the sloping tile walls.
"It must be permitted by the First
Amendment," she said.
"Or the First Commandment," he
replied. She slipped on her shoes, shouldered her bag, and, head held high,
accompanied Joss and the guard out of the rotunda. Without identifying
themselves and without being recognized, they managed to talk him out of
arresting them. But they were escorted out of the museum by a tight phalanx of
uniformed personnel, who were concerned perhaps that Ellie and Joss might next
sidle aboard the steam calliope in pursuit of an elusive God.
The street was deserted. They walked
wordlessly along the Mall. The night was clear, and Ellie made out Lyra against
the horizon.
"The bright one over there. That's
Vega," she said. He stared at it for a long time. "That decoding was
a brilliant achievement," he said at last.
"Oh, nonsense. It was trivial. It
was the easiest message an advanced civilization could think of. It would have
been a genuine disgrace if we hadn't been able to figure it out."
"You don't take compliments well,
I've noticed. No, this is one of those discoveries that change the future. Our expectations
of the future, anyway. It's like fire, or writing, or agriculture. Or the
Annunciation."
He stared again at Vega. "If you
could have a seat in that Machine, if you could ride it back to its Sender,
what do you think you would see?"
"Evolution is a stochastic process. There are just too many
possibilities to make reasonable predictions about what life elsewhere might be
like. If you had seen the Earth before the origin of life, would you have
predicted a katydid or a giraffe?"
"I know the answer to that question.
I guess you imagine that we just make this stuff up, that we read it in some
book, or pick it up in some prayer tent. But that's not how it is. I have
certain, positive knowledge from my own direct experience. I can't put it any
plainer than that. I have seen God face to face."
About the depth of his commitment there
seemed no doubt. "Tell me about it." So he did.
"Okay," she said finally,
"you were clinically dead, then you revived, and you remember rising through
the darkness into a bright light. You saw a radiance with a human form that you
took to be God. But there was nothing in the experience that told you the
radiance made the universe or laid down moral law. The experience is an
experience. You were deeply moved by it, no question. But there are other
possible explanations."
"Such as?"
"Well, like birth. Birth is rising
through a long, dark tunnel into a brilliant light. Don't forget how brilliant
it is--the baby has spent nine months in the dark. Birth is its first encounter
with light. Think of how amazed and awed you'd be in your first contact with
color, or light and shade, or the human face--which you're probably
preprogrammed to recognize. Maybe, if you almost die, the odometer gets set
back to zero for a moment. Understand, I don't insist on this explanation. It's
just one of many possibilities. I'm suggesting you may have misinterpreted the
experience."
"You haven't seen what I've
seen." He looked up once more at the cold flickering blue-white light from
Vega, and then turned to her. "Don't you ever feel...lost in your
universe? How do you know what to do, how to behave, if there's no God? Just
obey the law or get arrested?"
"You're not worried about being
lost, Palmer. You're worried about not being central, not the reason the
universe was created. There's plenty of order in my universe. Gravitation,
electromagnetism, quantum mechanics, superunification, they all involve laws.
And as for behavior, why can't we figure out what's in our best interest--as a
species?"
"That's a warmhearted and noble view
of the world, I'm sure, and I'd be the last to deny that there's goodness in
the human heart. But how much cruelty has been done when there was no love of
God?"
"And how much cruelty when there
was? Savonarola and Torquemada loved God, or so they said. Your religion
assumes that people are children and need a boogeyman so they'll behave. You
want people to believe in God so they'll obey the law. That's the only means that
occurs to you: a strict secular police force, and the threat of punishment by
an all-seeing God for whatever the police overlook. You sell human beings
short.
"Palmer, you think if I haven't had
your religious experience I can't appreciate the magnificence of your god. But
it's just the opposite. I listen to you, and I think. His god is too small! One
paltry planet, a few thousand years--hardly worth the attention of a minor
deity, much less the Creator of the universe."
"You're confusing me with some other
preacher. That museum was Brother Rankin's territory. I'm prepared for a
universe billions of years old. I just say the scientists haven't proved
it."
"And I say you haven't understood
the evidence. How can it benefit the people if the conventional wisdom, the
religious `truths,' are a lie? When you really believe that people can be
adults, you'll preach a different sermon."
There was a brief silence, punctuated
only by the echoes of their footfalls.
"I'm sorry if I've been a little too
strident," she said. "It happens to me from time to time."
"I give you my word. Dr. Arroway,
I'll carefully ponder what you've said this evening. You've raised some
questions I should have answers for. But in the same spirit, let me ask you a
few questions. Okay?"
She nodded, and he continued. `Think of
what consciousness feels like, what it feels like this minute. Does that feel
like billions of tiny atoms wiggling in place? And beyond the biological
machinery, where in science can a child learn what love is? Here's--"
Her beeper buzzed. It was probably Ken
with the news she had been waiting for. If so, it had been a very long meeting
for him. Maybe it was good news nevertheless. She glanced at the letters and
numbers forming in the liquid crystal: Ken's office number. There were no
public telephones in sight, but after a few minutes they were able to flag down
a taxicab.
"I'm sorry I have to leave so
suddenly," she apologized. "I enjoyed our conversation, and I'll think
seriously about your questions....You wanted to pose one more?"
"Yes. What is there in the precepts
of science that keeps a scientist from doing evil?"
CHAPTER 15
Erbium
Dowel
The earth,
that is sufficient, I do not want the constellations any nearer, I know they
are very well where they are, I know they suffice for those who belong to them.
-WALT WHITMAN Leaves of Grass "Song
of the Open Road" (1855)
IT TOOK
years, it was a technological dream and a diplomatic nightmare, but finally
they got around to building the Machine. Various neologisms were proposed, and
project names evocative of ancient myths.
But from the beginning everyone had
called it simply the Machine, and that became its official designation. The
continuing complex and delicate international negotiations were described by
Western editorial writers as "Machine Politics." When the first
reliable estimate of the total cost was generated, even the titans of the
aerospace industry gasped. Eventually, it came to half a trillion dollars a
year for some years, roughly a third of the total military budget--nuclear and
conventional--of the planet. There were fears that building the Machine would
ruin the world economy. "Economic Warfare from Vega?" asked the
London Economist. The daily headlines in The New York Times were, by any
dispassionate measure, more bizarre than any in the now defunct National
Enquirer a decade earlier.
The record will show that no psychic,
seer, prophet, or soothsayer, no person with claimed precognitive abilities, no
astrologer, no numerologist, and no late December copywriter on "The Year
Ahead" had predicted the Message or the Machine--much less Vega, prime
numbers, Adolf Hitler, the Olympics, and the rest. There were many claims,
however, by those who had clearly foreseen the events but had carelessly
neglected to write the precognition down. Predictions of surprising events
always prove more accurate if not set down on paper beforehand. It is one of
those odd regularities of everyday life. Many religions were in a slightly
different category: A careful and imaginative perusal of their sacred writings
will reveal, it was argued, a clear foretelling of these wondrous happenings.
For others, the Machine represented a
potential bonanza for the world aerospace industry, which had been in worrisome
decline since the Hiroshima Accords took full force.
Very few new strategic weapons systems
were under development. Habitats in space were a growing business, but they
hardly compensated for the loss of orbiting laser battle stations and other
accoutrements of the strategic defense envisioned by an earlier administration.
Thus, some of those who worried about the safety of the planet if the Machine
were to be built swallowed their scruples when contemplating the implications
for jobs, profits, and career advancement.
A well placed few argued that there was
no richer prospect for the high technology industries than a threat from space.
There would have to be defenses, immensely powerful surveillance radars,
eventual outposts on Pluto or in the Oort Comet Cloud. No amount of discourse
about military disparities between terrestrials and extraterrestrials could
daunt these visionaries. "Even if we can't defend ourselves against
them," they asked, "don't you want us to see them coming?" There
was profit here and they could smell it. They were building the Machine, of
course, trillions of dollars' worth of Machine; but the Machine was only the
beginning, if they played their cards right.
An unlikely political alliance coalesced
behind the reelection of President Lasker, which became in effect a national
referendum on whether to build the Machine. Her opponent warned of Trojan
Horses and Doomsday Machines and the prospect of demoralization of American
ingenuity in the face of aliens who had already "invented
everything." The President pronounced herself confident that American
technology would rise to the challenge and implied, although she did not
actually say, that American ingenuity would eventually equal anything they had
on Vega. She was re-elected by a respectable but by no means overwhelming
margin.
The instructions themselves were a
decisive factor. Both in the primer on language and basic technology and in the
Message on the construction of the Machine nothing was left unclear. Sometimes
intermediate steps that seemed entirely obvious were spelled out in tedious
detail--as when, in the foundations of arithmetic, it is proved that if two
times three equals six, then three times two also equals six. At every stage of
construction there were checkpoints: The erbium produced by this process should
be 96 percent pure, with no more than a fraction of a percent impurity from the
other rare earths. When Component 31 is completed and placed in a 6 molar
solution of hydrofluoric acid, the remaining structural elements should look
like the diagram in the accompanying figure. When Component 408 is assembled,
application of a two megagauss transverse magnetic field should spin the rotor
up to so many revolutions per second before it returns itself to a motionless
state. If any of the tests failed, you went back and redid the whole business.
After a while you got used to the tests,
and you expected to be able to pass them. It was akin to rote memorization.
Many of the underlying components, constructed by special factories designed
from scratch by following the primer instructions, defied human understanding.
It was hard to see why they should work. But they did. Even in such cases,
practical applications of the new technologies could be contemplated.
Occasionally promising insights seemed to be available for the skimming--in
metallurgy, for example, or in organic semiconductors. In some cases several
alternative technologies were supplied to produce an equivalent component; the
extraterrestrials could not be sure, apparently, which approach would be
easiest for the technology of the earth.
As the first factories were built and the
first prototypes produced, pessimism diminished about human ability to
reconstruct an alien technology from a Message written in no known language.
There was the heady feeling of arriving unprepared for a school test and
finding that you can figure out the answers from your general education and
your common sense. As in all competently designed examinations, taking it was a
learning experience. All the first tests were passed: The erbium was of
adequate purity; the pictured superstructure was left after the inorganic
material was etched away by hydrofluoric acid; the rotor spun up as advertised.
The Message flattered the scientists and engineers, critics said; they were
becoming caught up in the technology and losing sight of the dangers.
For the construction of one component, a
particularly intricate set of organic chemical reactions was specified and the
resulting product was introduced into a swimming pool-sized mixture of
formaldehyde and aqueous ammonia. The mass grew, differentiated, specialized, and
then just sat there--exquisitely more complex than anything like it humans knew
how to build. It had an intricately branched network of fine hollow tubes,
through which perhaps some fluid was to circulate. It was colloidal, pulpy,
dark red. It did not make copies of itself, but it was sufficiently biological
to scare a great many people. They repeated the procedure and produced
something apparently identical. How the end product could be significantly more
complicated than the instructions that went into building it was a mystery. The
organic mass squatted on its platform and did, so far as anyone could tell,
nothing. It was to go inside the dodecahedron, just above and below the crew
area.
Identical machines were under
construction in the United States and the Soviet Union. Both nations had chosen
to build in fairly remote places, not so much to protect population centers in
case it was a Doomsday Machine as to control access by curiosity seekers,
protesters, and the media. In the United States the Machine was built in
Wyoming; in the Soviet Union, just beyond the Caucasus, in the Uzbek S.S.R. New
factories were established near the assembly sites. Where components could be
manufactured with something like existing industry, manufacturing was widely
dispersed. An optical subcontractor in Jena, for example, would make and test
components to go to the American and Soviet Machines; and to Japan, where every
component was systematically examined to understand how it worked, so far as
was possible.
Progress out of Hokkaido had been slow.
There was concern that a component
subjected to a test unauthorized in the Message might destroy some subtle
symbiosis of the various components in a functioning Machine. A major
substructure of the Machine was three exterior concentric spherical shells,
arranged with axes perpendicular to each other, and designed to spin at high
velocities. The spherical shells were to have precise and intricate patterns
cut into them. Would a shell that had been whirled a few times in an
unauthorized test function improperly when assembled into the Machine? Would an
inexperienced shell, by contrast, work perfectly?
Hadden Industries was the American prime
contractor for Machine construction. Sol Hadden had insisted on no unauthorized
testing or even mounting of components intended for eventual assembly into the
Machine. The instructions, he ordered, were to be followed to the bit, there
being no letters per se in the Message. He urged his employees to think of
themselves as medieval necromancers, fastidiously following the words of a
magic spell. Do not dare to mispronounce a syllable, he told them.
This was, depending on which calendrical
or eschatological doctrine you fancied, two years before the Millennium. So many
people were "retiring," in happy anticipation of Doomsday or the
Advent or both, that in some industries skilled laborers were in short supply.
Hadden's willingness to restructure his work force to optimize Machine
construction, and to provide incentives for subcontractors, was seen to be a
major factor in the American success so far.
But Hadden had also
"retired"--a surprise, considering the well known views of the
inventor of Preachnix. "The chiliasts made an atheist out of me," he
was quoted as saying. Key decisions were still in his hands, his subordinates
said. But communication with Hadden was via fast asynchronous telenetting: His
subordinates would leave progress reports, authorization requests, and
questions for him in a locked box of a popular scientific telenetting service.
His answers would come back in another locked box. It was a peculiar
arrangement, but it seemed to be working. As the early, most difficult steps
were cleared and the Machine actually was beginning to take shape, less and
less was heard from S. R. Hadden. The executives of the World Machine
Consortium were concerned, but after what was described as a lengthy visit with
Mr. Hadden in an unrevealed location, they came away reassured. His whereabouts
were unknown to everyone else.
The world strategic inventories fell
below 3,200 nuclear weapons for the first time since the middle 1950s.
Multilateral talks on the more difficult stages of disarmament, down to a
minimum nuclear deterrent, were making progress. The fewer the weapons on one
side, the more dangerous would be the sequestering of a small number of weapons
by the other. And with the number of delivery systems--which were much easier
to verify--also diminishing steeply, with new means of automatic monitoring of treaty
compliance being deployed, and with new agreements on onsite inspection, the
prospects for further reductions seemed good. The process had generated a kind
of momentum of its own in the minds of both the experts and the public. As
occurs in the usual kind of arms race, the two powers were vying to keep up
with one another but this time in arms reductions. In practical military terms
they had not yet given up very much; they still retained the capability of
destroying the planetary civilization. However, in the optimism generated for
the future, in the hope engendered in the emerging generation, this beginning
had already accomplished much. Aided perhaps by the imminent worldwide
Millennial celebrations) both secular and canonical, the number of armed hostilities
between nations per year had diminished still further. `The Peace of God,"
the Cardinal Archbishop of Mexico City had called it.
In Wyoming and Uzbekistan new industries
had been created and whole cities were rising from the ground. The cost was
borne disproportionately by the industrialized nations, of course, but the pro
rata cost for everyone on Earth was something like one hundred dollars per
year. For a quarter of the Earth's population, one hundred dollars was a
significant fraction of annual income. The money spent on the Machine produced
no goods or services directly. But in stimulating new technology, it was deemed
a great bargain, even if the Machine itself never worked.
There were many who felt that the pace
had been too swift, that every step should be understood before moving on to
the next. If the construction of the Machine took generations, it was argued,
so what? Spreading the development costs over decades would lessen the economic
burden to the world economy of building the Machine. By many standards this was
prudent advice, but it was difficult to implement. How could you develop only
one component of the Machine? All over the world, scientists and engineers of
varying disciplinary persuasions were straining to be let loose on those
aspects of the Machine that overlapped their areas of expertise.
There were some who worried that were the
Machine not built quickly, it would never be built. The American President and
the Soviet Premier had committed their nations to the construction of the
Machine. This was not guaranteed for all possible successors. Also, for
perfectly understandable personal reasons, those controlling the project wished
to see it completed while they were still in positions of responsibility.
Some argued that there was an intrinsic urgency to a Message
broadcast on so many frequencies so loudly and for so long. They were not
asking us to build the Machine when we were ready. They were asking us to build
it now. The pace quickened.
All the early subsystems were based on
elementary technologies described in the first part of the primer. The
prescribed tests had been passed readily enough. As the later, more complex
subsystems were tested, occasional failures were noted. This was apparent in
both nations, but was more frequent in the Soviet Union. Since no one knew how
the components worked, it was usually impossible to trace backwards from
failure mode to identification of the flawed step in the manufacturing process.
In some cases the components were made in parallel by two different
manufacturers, with competition for speed and accuracy. If there were two
components, both of which had passed tests, there was a tendency for each
nation to select the domestic product. Thus, the Machines that were being
assembled in the two countries were not absolutely identical.
Finally, in Wyoming, the day came to
begin systems integration, the assembling of the separate components into a
complete Machine. It was likely to be the easiest part of the construction
process. Completion within a year or two seemed likely. Some thought that
activating the Machine would end the world right on schedule.
The rabbits were much more astute in
Wyoming. Or less. It was hard to figure out. The headlights on the Thunderbird
had picked up an occasional rabbit near the road more than once. But hundreds
of them organized in ranks--that custom, apparently, had not yet spread from
New Mexico to Wyoming. The situation here was not much different from Argus,
Ellie found. There was a major scientific facility surrounded by tens of
thousands of square kilometers of lovely, almost uninhabited landscape. She
wasn't running the show, and she wasn't one of the crew. But she was here,
working on one of the grandest enterprises ever contemplated. Surely, no matter
what happened after the Machine was activated, the Argus discovery would be
judged a turning point in human history.
Just at the moment when some additional
unifying force is needed, this bolt comes from the blue. From the black, she
corrected herself. From twenty-six light years away, 230 trillion kilometers.
It's hard to think of your primary allegiance as Scottish or Slovenian or
Szechuanese when you're all being hailed indiscriminately by a civilization
millennia ahead of you. The gap between the most technologically backward
nation on the Earth and the industrialized nations was, certainly, much smaller
than the gap between the industrialized nations and the beings on Vega.
Suddenly, distinctions that had earlier seemed transfixing -- racial,
religious, national, ethnic, linguistic, economic, and cultural---began to seem
a little less pressing.
"We are all humans." This was a
phrase you heard often these days. It was remarkable, in previous decades, how
infrequently sentiments of this sort had been expressed, especially in the
media. We share the same small planet, it was said, and--very nearly--the same
global civilization. It was hard to imagine the extraterrestrials taking
seriously a plea for preferential parley from representatives of one or another
ideological faction. The existence of the Message--even apart from its
enigmatic function--was binding up the world. You could see it happening before
your eyes.
Her mother's first question when she
heard that Ellie had not been selected was "Did you cry?" Yes, she
had cried. It was only natural. There was, of course, a part of her that longed
to be aboard. But Drumlin was a first rate choice, she had told her mother.
No decision had been made by the Soviets
between Lunacharsky and Arkhangelsky; both would "train" for the
mission. It was hard to see what training might be appropriate beyond
understanding the Machine as best they, or anyone else, could. Some Americans
charged that this was merely an attempt by the Soviets to acquire two principal
Machine spokesmen, but Ellie thought this was mean-spirited. Both Lunacharsky
and Arkhangelsky were extremely capable. She wondered how the Soviets would
decide which to send. Lunacharsky was in the United States, but not here in
Wyoming. He was in Washington with a high level Soviet delegation meeting with
the Secretary of State and Michael Kitz, newly promoted to Deputy Secretary of
Defense. Arkhangelsky was back in Uzbekistan.
The new metropolis growing up in the
Wyoming wilderness was called Machine; Machine, Wyoming. Its Soviet counterpart
was given the Russian equivalent, Makhina. Each was a complex of residences,
utilities, residential and business districts, and--most of all--factories.
Some of them were unpretentious, at least on the outside. But in others you
could see in a single glance their bizarre aspects--domes and minarets, miles
of intricate exterior piping. Only the factories that were adjudged potentially
dangerous--those manufacturing the organic components, for example--were here
in the Wyoming wilderness. Technologies better understood were distributed
worldwide. The core of the cluster of new industries was the Systems Integration
Facility, built near what had once been Wagonwheel, Wyoming, to which completed
components were consigned. Sometimes Ellie would see a component arrive and
realize that she had been the first human being ever to see it as a design
drawing. As each new part was uncrated, she would rush to inspect it. As
components were mounted one upon another, and as subsystems passed their
prescribed tests, she felt a kind of glow that she guessed was akin to maternal
pride.
Ellie, Drumlin, and Valerian arrived for
a routine and long-scheduled meeting on the now wholly redundant worldwide
monitoring of the signal from Vega. When they arrived, they found everyone
talking about the burning of Babylon. It had happened in the early hours of the
morning, perhaps at a time when the place was prowled only by its most
iniquitous and unregenerate habitués. A raiding party, equipped with mortars
and incendiaries, had struck simultaneously through the Enlil and Ishtar gates.
The Ziggurat had been put to the torch. There was a photograph of improbably
and scantily clad people rushing from the Temple of Assur. Remarkably, no one
was killed, although there were many injuries.
Just before the attack, the New York Sun,
a paper controlled by the Earth Firsters and sporting a globe shattered by a
lightning bolt on its masthead, received a call announcing that the attack was
under way. It was divinely inspired retribution, the caller volunteered,
carried out on behalf of decency and American morality, by those sick and tired
of filth and corruption. There were statements by the president of Babylon,
Inc., decrying the attack and condemning an alleged criminal conspiracy,
but--at least so far--not a word from S. R. Hadden, wherever he might be.
Because Ellie was known to have visited
Hadden in Babylon, a few of the project personnel sought out her reaction. Even
Drumlin was interested in her opinion on this matter, although from his evident
knowledge of the geography of the place, it seemed possible that he had visited
it more than once himself. She had no trouble imagining him as charioteer. But
perhaps he had only read about Babylon. Photomaps had been published in the
weekly news magazines.
Eventually, they got back to business.
Fundamentally, the Message was continuing on the same frequencies, bandpasses,
time constants, and polarization and phase modulation; the Machine design and
the primer were still sitting underneath the prime numbers and the Olympic'
broadcast. The civilization in the Vega system seemed very dedicated. Or maybe
they had just forgotten to turn off the transmitter. Valerian had a faraway
look in his eyes.
"Peter, why do you have to look at
the ceiling when you think?"
Drumlin was reputed to have mellowed over
the last few years, but, as with this comment, his reform was not always
apparent. Being chosen by the President of the United States to represent the
nation to the extraterrestrials was, he would say, a great honor. The trip, he
told his intimates, would be the crowning point of his life. His wife,
temporarily transplanted to Wyoming and still doggedly faithful, had to endure
the same slide shows presented to new audiences of scientists and technicians
building the Machine. Since the site was near his native Montana, Drumlin
visited there briefly from time to time. Once Ellie had driven him to Missoula.
For the first time in their relationship, he had been cordial to her for a few
consecutive hours.
"Shhhh! I'm thinking," replied
Valerian. "It's a noise suppression technique. I'm trying to minimize the
distractions in my visual field, and then you present a distraction in the
audio spectrum. You might ask me why I don't just as well stare at a piece of
blank paper. But the trouble is that the paper's too small. I can see things in
my peripheral vision. Anyway, what I was thinking is this: Why are we still
getting the Hitler message, the Olympic broadcast? Years have passed. They must
have received the British Coronation broadcast by now. Why haven't we seen some
close ups of Orb and Scepter and ermine, and a voice intoning `...now crowned
as George the Sixth, by the Grace of God, King of England and Northern Ireland,
and Emperor of India'?"
"Are you sure Vega was over England
at the time of the Coronation transmission?" Ellie asked.
"Yes, we checked that out within a
few weeks of receipt of the Olympic broadcast. And the intensity was stronger
than the Hitler thing. I'm sure Vega could have picked up the Coronation
transmission."
"You're worried that they don't want
us to know everything they know about us?" she asked.
`They're in a hurry," said Valerian.
He was given occasionally to delphic utterances.
"More likely," offered Ellie,
"they want to keep reminding us that they know about Hitler."
"That's not entirely different from
what I'm saying," Valerian replied.
"All right. Let's not waste too much
time in Fantasyland," Drumlin groaned. He was always impatient with
speculation on extraterrestrial motivation. It was a total waste of time to guess,
he would say; we'll know soon enough. Meanwhile, he urged all and sundry to
concentrate on the Message; it was hard data-- redundant, unambiguous,
brilliantly composed.
"Here, a little reality might fix
you two up. Why don't we go into the assembly area? I think they're doing
systems integration with the erbium dowels."
The geometric design of the Machine was
simple. The details were extremely complex. The five chairs in which the crew
would sit were amidships in the dodecahedron where it bulged out most
prominently. There were no facilities for eating or sleeping or other bodily
functions, clear evidence that the trip aboard the Machine--if there was
one--would be short. Some thought this meant that the Machine, when activated,
would quickly rendezvous with an interstellar space vehicle in the vicinity of
the Earth. The only difficulty was that meticulous radar and optical searches
could find no trace of such a ship. It seemed scarcely likely that the
extraterrestrials had overlooked elementary human physiological needs. Maybe
the Machine didn't go anywhere. Maybe it did something to the crew. There were
no instruments in the crew area, nothing to steer with, not even an ignition
key--just the five chairs, pointed inward, so each crew member could watch the
others. And there was a carefully prescribed upper limit on the weight of the
crew and their belongings. In practice, the constraint worked to the advantage
of people of small stature.
Above and below the crew area, in the
tapering part of the dodecahedron, were the organics, with their intricate and
puzzling architecture. Placed throughout the interior of this part of the
dodecahedron, apparently at random, were the dowels of erbium. And surrounding
the dodecahedron were the three concentric spherical shells, each in a way
representing one of the three physical dimensions. The shells were apparently
magnetically suspended--at least the instructions included a powerful magnetic
field generator,' and the space between the spherical shells and the
dodecahedron was to be a high vacuum.
The Message did not name any Machine
component. Erbium was identified as the atom with sixty-eight protons and
ninety-nine neutrons. The various parts of the Machine were also described
numerically-- Component 31, for example. So the rotating concentric spherical
shells were named benzels by a Czech technician who knew something of the
history of technology; Gustav Benzel had, in 1870, invented the merry-go-round.
The design and function of the Machine
were unfathomed, it required whole new technologies to construct, but it was
made of matter, the structure could be diagrammed--indeed cutaway engineering
drawings had appeared in mass media all over the world--and its finished form
was readily visualized. There was a continuing mood of technological optimism.
Drumlin, Valerian, and Arroway went
through the usual identification sequence, involving credentials, thumbprint
and voiceprint, and were then admitted to the vast assembly bay. Three story
overhead cranes were positioning erbium dowels in the organic matrix. Several
pentagonal panels for the exterior of the dodecahedron were hanging from an
elevated railroad track. While the Soviets had had some problems, the U.S.
subsystems had finally passed all their tests, and the overall architecture of
the Machine was gradually emerging. It's all coming together, Ellie thought.
She looked to where the benzels would be assembled. When completed, the Machine
would look from the outside like one of those armillary spheres of the
Renaissance astronomers. What would Johannes Kepler have made of all this?
The floor and the circumferential tracks
at various altitudes in the assembly building were crowded with technicians,
government officials, and representatives of the World Machine Consortium. As
they watched. Valerian mentioned that the President had established an
occasional correspondence with his wife, who would not tell Peter even what it
was about. She had pleaded the right of privacy.
The positioning of the dowels was almost
completed, and a major systems integration test was about to be attempted for
the first time. Some thought the prescribed monitoring device was a gravity
wave telescope. Just as the test was to begin, they walked around a stanchion
to get a better view.
Suddenly Drumlin was in the air, flying.
Everything else seemed to be flying, too. It reminded her of the tornado that
had carried Dorothy to Oz. As in a slow motion film, Drumlin careened toward
her, arms outstretched, and knocked her roughly to the ground. After all these
years, she thought, was this his notion of a sexual overture? He had a lot to
learn.
It was never determined who did it.
Organizations publicly claiming responsibility included the Earth Firsters, the
Red Army Faction, the Islamic Jihad, the now underground Fusion Energy
Foundation, the Sikh Separatists, Shining Path, the Khmer Vert, the Afghan
Renaissance, the radical wing of Mothers Against the Machine, the Reunified
Reunification Church, Omega Seven, the Doomsday Chiliasts (although Billy Jo
Rankin denied any connection and claimed that the confessions were called in by
the impious, in a doomed attempt to discredit God), the Broederbond, El Catorce
de Febrero, the Secret Army of the Kuomintang, the Zionist League, the Party of
God, and the newly resuscitated Symbionese Liberation Front. Most of these
organizations did not have the wherewithal to execute the sabotage; the length
of the list was merely an index of how widespread opposition to the Machine had
become.
The Ku Klux Klan, the American Nazi
Party, the Democratic National Socialist Party, and a few like-minded
organizations restrained themselves and did not claim responsibility. An
influential minority of their membership believed that the Message had been
dispatched by Hitler himself. According to one version, he had been spirited
off the Earth by German rocket technology in May 1945, and quite some progress
had been made by the Nazis in the intervening years.
"I don't know where the Machine was
going," the President said some months later, "but if it was half as
whacked out as this planet is, it probably wasn't worth the trip anyway."
As reconstructed by the Commission of
Inquiry, one of the erbium dowels was sundered by an explosion; the two pillbox
shaped fragments careened downward from a height of twenty meters, and were
also propelled laterally with considerable velocity. A weight bearing interior
wall was struck and collapsed under the impact. Eleven people were killed and
forty-eight injured. A number of major Machine components were destroyed; and,
since an explosion was not among the testing protocols prescribed by the
Message, the explosion might have ruined apparently unaffected components. When
you had no idea at all about how the thing worked, you had to be very careful
about building it.
Despite the profusion of organizations
that craved credit, suspicion in the United States focused immediately on two
of the few groups that had not claimed responsibility: the extraterrestrials
and the Russians. Talk about Doomsday Machines filled the air once again. The
extraterrestrials had designed the Machine to explode catastrophically when
assembled, but fortunately, some said, we were careless in assembling it and
only a small charge--perhaps the trigger for the Doomsday Machine--blew up.
They urged halting construction before it was too late and burying the
surviving components in widely dispersed salt mines.
But the Commission of Inquiry found
evidence that the Machine Disaster, as it came to be known, was of more Earthly
origin. The dowels had a central ellipsoidal cavity of unknown purpose, and its
interior wall was lined with an intricate network of fine gadolinium wires.
This cavity had been packed with plastic explosive and a timer, materials not
on the Message's Inventory of Parts. The dowel had been machined, the cavity
lined, and the finished product tested and sealed in a Hadden Cybernetics facility
in Terre Haute, Indiana. The gadolinium wiring had been too intricate to do by
hand; robot servomechanisms were required, and they in turn had required a
major factory to be constructed. The cost of building the factory was defrayed
entirely by Hadden Cybernetics, but there would be other, more profitable,
applications for its wares.
The other three erbium dowels in the same
lot were inspected and revealed no plastic explosive. (Soviet and Japanese
crews had performed a range of remote sensing experiments before daring to
split their dowels open.) Somebody had carefully packed a tamped charge and
timer into the cavity near the end of the construction process in Terre Haute.
Once out of the factory this dowel--and those from other batches--had been
transported by special train and under armed guard to Wyoming. The timing of
the explosion and the nature of the sabotage suggested someone with knowledge
of the Machine construction; it was an inside job.
But the investigation made little progress.
There were several dozen people--technicians, quality control analysts,
inspectors who sealed the component for transshipment--who had the opportunity
to commit the sabotage, if not the means and the motivation. Those who failed
polygraph tests had ironclad alibis. None of the suspects let drop a confession
in an unguarded moment at the neighborhood bar. None began to spend more than
their means allowed. No one "broke" under interrogation. Despite what
were said to be vigorous efforts by law-enforcement agencies, the mystery
remained unsolved.
Those who believed the Soviets
responsible argued that their motive was to prevent the United States from
activating its Machine first. The Russians had the technical capability for the
sabotage, and, of course, detailed knowledge of Machine construction protocols
and practice on both sides of the Atlantic. As soon as the disaster occurred,
Anatoly Goldmann, a former student of Lunacharsky's, who was working as Soviet
liaison in Wyoming, urgently called Moscow and told them to take down all their
dowels. At face value, this conversation--which had been routinely monitored by
the NSA--seemed to show no Russian involvement, but some argued that the phone
call was a sham to deflect suspicion, or that Goidmann had not been told of the
sabotage beforehand. The argument was picked up by those in the United States
made uneasy by the late reduction of tensions between the two nuclear
superpowers. Understandably, Moscow was outraged at the suggestion.
In fact, the Soviets were having more
difficulties in constructing their Machine than was generally known. Using the
decrypted Message, the Ministry of Medium Heavy Industry made considerable
progress in ore extraction, metallurgy, machine tools, and the like. The new microelectronics
and cybernetics were more difficult, and most of those components for the
Soviet Machine were produced under contract elsewhere in Europe and in Japan.
Even more difficult for Soviet domestic industry was the organic chemistry,
much of which required techniques developed in molecular biology.
A nearly fatal blow had been dealt Soviet
genetics when in the 1930s Stalin decided that modern Mendelian genetics was
ideologically unsuitable, and decreed as scientifically orthodox the crackpot
genetics of a politically sophisticated agriculturalist named Trofirn Lysenko.
Two generations of bright Soviet students were taught essentially nothing of
the fundamentals of heredity. Now, sixty years later, Soviet molecular biology
and genetic engineering were comparatively backward, and few major discoveries
in the subject had been made by Soviet scientists. Something similar had
happened, but abortively, in the United States, where for theological reasons
attempts had been made to prevent public school students from learning about
evolution, the central idea of modern biology. The issue was clear cut, because
a fundamentalist interpretation of the Bible was widely held to be inconsistent
with the evolutionary process. Fortunately for American molecular biology, the
fundamentalists were not as influential in the United States as Stalin had been
in the Soviet Union.
The National Intelligence Estimate
prepared for the President on the matter concluded that there was no evidence
of Soviet involvement in the sabotage. Rather, since the Soviets had parity
with the Americans in crew membership, they had strong incentives to support
the completion of the American Machine. "If your technology is at Level
Three," explained the Director of Central Intelligence, "and your
adversary is ahead of you at Level Four, you're happy when, out of the blue,
Level Fifteen technology appears. Provided you have equal access to it and
adequate resources." Few officials of the American government believed the
Soviets were responsible for the explosion, and the President said as much
publicly on more than one occasion. But old habits die hard.
"No crackpot group, however well
organized, will deflect humanity from this historic goal," the President
declared. In practice, though, it was now much more difficult to achieve a
national consensus. The sabotage had given new life to every objection,
reasonable and unreasonable, that had earlier been raised. Only the prospect of
the Soviets' completing their Machine kept the American project going.
His wife had wanted to keep Drumlin's
funeral a family affair, but in this, as in much else, her well meaning
intentions were thwarted. Physicists, parasailors, hang gliding aficionados,
government officials, scuba enthusiasts, radio astronomers, sky divers, aqua
planers, and the world SETI community all wanted to attend. For a while, they
had contemplated holding the services at the Cathedral of St. John the Divine
in New York City, as the only church in the country of adequate size. But
Drumlin's wife won a small victory, and the ceremony was held outdoors in his
hometown of Missoula, Montana. The authorities had agreed because Missoula
simplified the security problems.
Although Valerian was not badly injured,
his physicians advised him against attending the funeral; nevertheless, he gave
one of the eulogies from a wheelchair. Drumlin's special genius was in knowing
what questions to ask. Valerian said. He had approached the SETI problem
skeptically, because skepticism was at the heart of science. Once it was clear
that a Message was being received, no one was more dedicated or resourceful in
figuring it out. The Deputy Secretary of Defense, Michael Kitz, representing
the President, stressed Drumlin's personal qualities--his warmth, his concern
for the feelings of others, his brilliance, his remarkable athletic ability. If
not for this tragic and dastardly event, Drumlin would have gone down in
history as the first American to visit another star.
No peroration from her, Ellie had told
der Heer. No press interviews. Maybe a few photographs--she understood the
importance of a few photographs. She didn't trust herself to say the right
thing. For years she had served as a kind of public spokesperson for SETI, for
Argus, and then for the Message and the Machine. But this was different. She
needed some time to work this one through.
As nearly as she could tell, Drumlin had
died saving her life. He had seen the explosion before others heard it, had
spied the several hundred kilogram mass of erbium arcing toward them. With his
quick reflexes, he had leaped to push her back behind the stanchion. She had
mentioned this as a possibility to der Heer, who replied, "Drumlin was
probably leaping to save himself, and you were just in the way." The
remark was ungracious; was it also intended to be ingratiating? Or perhaps, der
Heer had gone on, sensing her displeasure, Drumlin had been thrown into the air
by the concussion of the erbium hitting the staging surface.
But she was absolutely sure. She had seen
the whole thing. Drumlin's concern was to save her life. And he had. Except for
a few scratches, Ellie was physically unhurt. Valerian, who had been entirely
protected by the stanchion, had both legs broken by a collapsing wall. She had
been fortunate in more ways than one. She had not even been knocked
unconscious.
Her first thought--as soon as she had
understood what had happened--was not for her old teacher David Drumlin crushed
horribly before her eyes; not amazement at the prospect of Drumlin giving up
his life for hers; not the setback to the entire Machine Project. No, clear as
a bell, her thought had been I can go, they'll have to send me, there's nobody
else, I get to go.
She had caught herself in an instant. But
it was too late. She was aghast at her self involvement, at the contemptible
egotism she had revealed to herself in this moment of crisis. It didn't matter
that Drumlin might have had similar failings. She was appalled to find them,
even momentarily, within her--so...vigorous, busy, planning future courses of
action, oblivious of everything except herself. What she detested most was the
absolute unselfconsciousness of her ego. It made no apologies, gave no quarter,
and plunged on. It was unwholesome. She knew it would be impossible to tear it
out, root and branch. She would have to work on it patiently, reason with it,
distract it, maybe even threaten it.
When the investigators arrived on the
scene, she was uncommunicative. "I'm afraid I can't tell you much. The
three of us were walking together in the staging area and suddenly there was an
explosion and everything was flying up into the air. I'm sorry I can't help. I
wish I could." She made it clear to her colleagues that she did not want
to talk about it, and disappeared into her apartment for so long that they sent
a scouting party to inquire after her. She tried recalling every nuance of the
incident. She tried to reconstruct their conversation before they had entered
the staging area, what she and Drumlin had talked about on their drive to
Missoula, what Drumlin had seemed like when she first met him at the beginning
of her graduate school career. Gradually she discovered that there was a part
of her that had wished Drumlin dead--even before they became competitors for
the American seat on the Machine. She hated him for having diminished her
before the other students in class, for opposing Argus, for what he had said to
her the moment after the Hitler film had been reconstructed. She had wanted him
dead. And now he was dead. By a certain reasoning--she recognized it
immediately as convoluted and spurious--she believed herself responsible.
Would he even have been here if not for
her? Certainly, she told herself; someone else would have discovered the
Message, and Drumlin would have leaped in. So to say. But had she not--through
her own scientific carelessness, perhaps--provoked him into deeper involvement
in the Machine Project? Step by step, she worked through the possibilities. If
they were distasteful, she worked especially hard on them; there was something
hiding there. She thought about men, men who for one reason or another she had
admired. Drumlin. Valerian. Der Heer. Hadden....Joss. Jesse....Staughton?...Her
father.
"Dr. Arroway?"
Ellie was roused somewhat gratefully from this meditation by a
stout blond woman of middle age in a blue print dress. Her face was somehow
familiar. The cloth identification badge on her ample bosom read "H. Bork,
Gøteborg."
"Dr. Arroway, I'm so sorry for
your...for our loss. David told me all about you."
Of course! The legendary Helga Bork,
Drumlin's scuba diving companion in so many tedious graduate student slide
shows. Who, she wondered for the first time, had taken those pictures? Did they
invite a photographer to accompany them on their underwater trysts? "He
told me how close you both were." What is this woman trying to tell me?
Did Drumlin insinuate to her...Her eyes welled with tears. "I'm sorry. Dr.
Bork, I don't feel very well right now." Head lowered, she hurried away.
There were many at the funeral she wanted to see: Vaygay, Arkhangelsky,
Gotsridze, Baruda, Yu, Xi, Devi. And Abonnema Eda, who was increasingly being
talked about as the fifth crew member--if the nations had any sense, she
thought, and if there was to be such a thing as a completed Machine. But her
social stamina was in tatters and she could not now abide long meetings. For
one thing, she didn't trust herself to speak. How much that she'd be saying
would be for the good of the project, and how much to satisfy her own needs?
The others were sympathetic and understanding. She had, after all, been the
person closest to Drumlin when the erbium dowel struck and pulped him.
CHAPTER 16
The Elders
of Ozone
The God
whom science recognizes must be a God of universal laws exclusively, a God who
does a wholesale, not a retail business. He cannot accommodate his processes to
the convenience of individuals.
-WILLIAM JAMES The Varieties of Religious
Experience (1902)
AT A FEW
hundred kilometers altitude, the Earth fills half your sky, and the band of
blue that stretches from Mindanao to Bombay, which your eye encompasses in a
single glance, can break your heart with its beauty. Home, you think. Home.
This is my world. This is where I come from. Everyone I know, everyone I ever
heard of, grew up down there, under that relentless and exquisite blue. You
race eastward from horizon to horizon, from dawn to dawn, circling the planet
in an hour and a half. After a while, you get to know it, you study its
idiosyncrasies and anomalies. You can see so much with the naked eye. Florida
will soon be in view again. Has that tropical storm system you saw last orbit,
swirling and racing over the Caribbean, reached Fort Lauderdale? Are any of the
mountains in the Hindu Kush snow-free this summer? You tend to admire the
aquamarine reefs in the Coral Sea. You look at the West Antarctic Ice Pack and
wonder whether its collapse could really inundate all the coastal cities on the
planet.
In the daylight, though, it's hard to see
any sign of human habitation. But at night, except for the polar aurora,
everything you see is due to humans, humming and blinking all over the planet.
That swath of light is eastern North America, continuous from Boston to
Washington, a megalopolis in fact if not in name. Over there is the burn off of
natural gas in Libya. The dazzling lights of the Japanese shrimp fishing fleet
have moved toward the South China Sea. On every orbit, the Earth tells you new
stories. You can see a volcanic eruption in Kamchatka, a Saharan sandstorm
approaching Brazil, unseasonably frigid weather in New Zealand. You get to
thinking of the Earth as an organism, a living thing. You get to worry about
it, care for it, wish it well. National boundaries are as invisible as
meridians of longitude, or the Tropics of Cancer and Capricorn. The boundaries
are arbitrary. The planet is real. Spaceflight, therefore, is subversive. If
they are fortunate enough to find themselves in Earth orbit, most people, after
a little meditation, have similar thoughts. The nations that had instituted
spaceflight had done so largely for nationalistic reasons; it was a small irony
that almost everyone who entered space received a startling glimpse of a transnational
perspective, of the Earth as one world.
It wasn't hard to imagine a time when the
predominant loyalty would be to this blue world, or even to the cluster of
worlds huddling around the nearby yellow dwarf star on which humans, once
unaware that every star is a sun, had bestowed the definite article: the Sun.
It was only now, when many people were entering space for long periods and had
been afforded a little time for reflection, that the power of the planetary
perspective began to be felt. A significant number of these occupants of low
Earth orbit, it turned out, were influential down there on Earth.
They had--from the beginning, from before
humans ever entered space--sent animals up there. Amoebas, fruit flies, rats,
dogs, and apes had become hardy space veterans. As spaceflights of longer and
longer duration became possible, something unexpected was found. It had no
effect on microorganisms and little effect on fruit flies. But for mammals, it
seemed, zero gravity extended the lifespan. By 10 or 20 percent. If you lived
in zero g, your body would spend less energy fighting the force of gravity,
your cells would oxidize more slowly, and you would live longer. There were
some physicians who claimed that the effects would be much more pronounced on
humans than on rats. There was the faintest aroma of immortality in the air.
The rate of new cancers was down 80
percent for the orbital animals compared with a control group on the Earth.
Leukemia and lymphatic carcinomas were down 90 percent. There was even some
evidence, perhaps not yet statistically significant, that the spontaneous
remission rate for neoplastic diseases was much greater in zero gravity. The
German chemist Otto Warburg had, half a century before, proposed that oxidation
was the cause of many cancers. The lower cellular oxygen consumption in the
weightless condition suddenly seemed very attractive. People who in earlier
decades would have made a pilgrimage to Mexico for laetrile now clamored for a
ticket into space. But the price was exorbitant. Whether preventive or clinical
medicine, spaceflight was for the few.
Suddenly, hitherto unheard of sums of
money became available for investment in civilian orbital stations. By the very
end of the Second Millennium there were rudimentary retirement hotels a few
hundred kilometers up. Aside from the expense, there was a serious
disadvantage, of course: Progressive osteological and vascular damage would
make it impossible for you ever to come back to the gravitational field at the
surface of the Earth. But for some of the wealthy elderly, this was no major
impediment. In exchange for another decade of life, they were happy to retire
to the sky and, eventually, to die there.
There were those who worried that this
was an imprudent investment of the limited wealth of the planet; there were too
many urgent needs and just grievances of the poor and powerless to spend it on
pampering the rich and powerful. It was foolhardy, they said, to permit an
elite class to emigrate to space, with the masses left back on Earth--a planet
in effect given over to absentee landlords. Others professed it to be a
godsend: The owners of the planet were picking up in droves and leaving; they
couldn't do nearly as much damage up there, it was argued, as down here.
Hardly anyone anticipated the principal
outcome, the transfer of a vivid planetary perspective to those who could do
the most good. After some years, there were few nationalists left in Earth
orbit. Global nuclear confrontation poses real problems for those with a
penchant for immortality.
There were Japanese industrialists, Greek
shipping tycoons, Saudi crown princes, one ex-President, a former Party General
Secretary, a Chinese robber baron, and a retired heroin kingpin. In the West,
aside from a few promotional invitations, there was only one criterion for
residence in Earth orbit: You had to be able to pay.
The Soviet hostel was different; it was
called a space station, and the former Party Secretary was said to be there for
"gerontological research." By and large, the multitudes were not
resentful. One day, they imagined, they would go, too.
Those in Earth orbit tended to be
circumspect, careful, quiet. Their families and staffs had similar personal
qualities. They were the focus of discreet attention by other rich and powerful
people still on Earth. They made no public pronouncements, but their views
gradually permeated the thinking of leaders worldwide. The continuing
divestment of nuclear weapons by the five nuclear powers was something the
venerables in orbit supported. Quietly, they had endorsed the building of the
Machine, because of its potential to unify the world. Occasionally nationalist
organizations would write about a vast conspiracy in Earth orbit, doddering
do-gooders selling out their Motherlands. There were pamphlets that purported
to be stenographic transcripts of a meeting aboard Methuselah attended by
representatives of the other private space stations who had been ferried over
for the purpose. A list of "action items" was produced, calculated to
strike terror in the heart of the most lukewarm patriot. The pamphlets were
spurious. Times-week announced; it called them "The Protocols of the
Elders of Ozone."
On the days immediately before launch,
she tried to spend some time--often just after dawn--on Cocoa Beach. Ellie had
borrowed an apartment that overlooked the beach and the Atlantic Ocean. She
would bring pieces of bread along and practice throwing them to the seagulls.
They were good at catching morsels on the fly, with a fielding average, she
calculated, about that of a major league outfielder. There were moments when
twenty or thirty seagulls would hover in the air just a meter or two above her
head. They flapped vigorously to stay in place, their beaks wide, straining in
anticipation of the miraculous appearance of food.
They grazed past each other in apparent
random motion, but the overall effect was a stationary pattern. On her way
back, she noticed a small and, in its humble way, perfect palm frond lying at
the edge of the beach. She picked it up and carried it back to her apartment,
carefully wiping off the sand with her fingers. Hadden had invited her up for a
visit to his home away from home, his chateau in space. Methuselah, he called
it. She could tell no one outside the government about the invitation, because
of Hadden's passion to stay out of the public eye. Indeed, it was still not
generally known that he had taken up residence in orbit, retired to the sky.
All those inside the government she asked were for it. Der Heer's advice was
`The change of scene will do you good." The President clearly was in favor
of her visit, because a place had suddenly been made available on the next
shuttle launch, the aging STS Intrepid. Passage to an orbiting rest home was
usually by commercial carrier. A much larger nonreusable launch vehicle was
undergoing final flight qualification. But the aging shuttle fleet was still
the work-horse of U.S. government space activities, both military and civilian.
"We jus' flake off tiles by the
handful when we re-enter, and then we jus' stick `em back on again before
liftoff," one of the astronaut-pilots explained to her.
Beyond general good health, there were no
special physical requirements for the flight. Commercial launches tended to go
up full and come back empty. By contrast, the shuttle flights were crowded both
on the way up and on the way down. Before Intrepid's latest landing the
previous week, it had rendezvoused and docked with Methuselah to return two
passengers to Earth. She recognized their names; one was a designer of
propulsion systems, the other a cryobiologist. Ellie wondered what they had
been doing on Methuselah.
"You'll see," the pilot
continued, "it'll be like fallin' off a log. Hardly anybody hates it, and
most folks jus' love it."
She did. Crowded in with the pilot, two
mission specialists, a tight-lipped military officer, and an employee of the
Internal Revenue Service, she experienced a flawless liftoff and the
exhilaration of her first experience in zero gravity longer than the ride in
the high-deceleration elevator at the World Trade Center in New York. One and a
half orbits later, they rendezvoused with Methuselah. In two days the
commercial transport Narnia would bring Ellie down.
The Chateau--Hadden insisted on calling
it that--was slowly spinning, one revolution about every ninety minutes, so
that the same side of it was always facing the Earth. Hadden's study featured a
magnificent panorama on the Earthward bulkhead--not a television screen but a
real transparent window. The photons she was seeing had been reflected off the
snowy Andes just a fraction of a second ago. Except toward the periphery of the
window, where the slant path through the thick polymer was longer, hardly any
distortion was evident.
There were many people she knew, even
people who considered themselves religious, for whom the feeling of awe was an
embarrassment. But you would have to be made of wood, she thought, to stand before
this window and not feel it. They should be sending up young poets and
composers, artists, filmmakers, and deeply religious people not wholly in
thrall to the sectarian bureaucracies. This experience could easily be
conveyed, she thought, to the average person on Earth. What a pity it had not
yet been attempted seriously. The feeling was...numinous.
"You get used to it," Hadden
told her, "but you don't get tired of it. From time to time it's still
inspiring."
Abstemiously he was nursing a diet cola.
She had refused the offer of something stronger. The premium on ethanol in
orbit must be high, she thought.
"Of course, you miss things--long
walks, swimming in the ocean, old friends dropping in unannounced. But I was
never much into those things anyway. And as you see, friends can come by for a
visit."
"At huge expense," she replied.
"A woman comes up to visit
Yamagishi, my neighbor in the next wing. Second Tuesday of every month, rain or
shine. I'll introduce you to him later. He's quite a guy. Class A war
criminal--but only indicted, you understand, never convicted."
"What's the attraction?" she
asked. "You don't think the world is about to end. What are you doing up
here?"
"I like the view. And there are certain
legal niceties." She looked at him querulously.
"You know, someone in my
position--new inventions, new industries--is always on the thin edge of
breaking some law or other. Usually it's because the old laws haven't caught up
with the new technology. You can spend a lot of your time in litigation. It
cuts down your effectiveness. While all this"--he gestured expansively,
taking in both the Chateau and the Earth--"doesn't belong to any nation.
This Chateau belongs to me, my friend Yamagishi, and a few others. There could
never be anything illegal about supplying me with food and material needs. Just
to be on the safe side, though, we're working on closed ecological systems.
There's no extradition treaty between this Chateau and any of the nations down
there. It's more... efficient for me to be up here.
"I don't want you to think that I've
done anything really illegal. But we're doing so many new things, it's smart to
be on the safe side. For instance, there are people who actually believe I sabotaged
the Machine, when I spent a ridiculous amount of my own money trying to build
it. And you know what they did to Babylon. My insurance investigators think it
might have been the same people in Babylon and Terre Haute. I seem to have a
lot of enemies. I don't understand why. I think I've done a lot of good for
people. Anyway, all in all, it's better for me to be up here....
"Now, it's the Machine I wanted to
talk to you about. That was awful--that erbium-dowel catastrophe in Wyoming.
I'm really sorry about Drumlin. He was a tough old pisser. And it must have
been a big shock for you. Sure you don't want a drink?"
But she was content to look out at the
Earth and listen. "If I'm not disheartened about the Machine," he
went on, "I don't see why you should be. You're probably worried that
there never will be an American Machine, that there are too many people who
want it to fail. The President's worried about the same thing. And those
factories we built, those aren't assembly lines. We've been making custom-made
products. It's gonna be expensive to replace all the broken parts. But mainly
you're thinking, maybe it was a bad idea in the first place. Maybe we've been
foolish to go so fast. So let's take a long, careful look at the whole thing. Even
if you're not thinking like that, the President is.
"But if we don't do it soon. I'm
worried we'll never do it. And there's another thing: I don't think this
invitation is open forever."
"Funny you should say that. That's
just what Valerian, Drumlin, and I were talking about before the accident. The
sabotage," she corrected herself. "Please go on."
"You see, the religious people--most
of them--really think this planet is an experiment. That's what their beliefs
come down to. Some god or other is always fixing and poking, messing around
with tradesmen's wives, giving tablets on mountains, commanding you to mutilate
your children, telling people what words they can say and what words they can't
say, making people feel guilty about enjoying themselves, and like that. Why
can't the gods leave well enough alone? All this intervention speaks of
incompetence. If God didn't want Lot's wife to look back, why didn't he make
her obedient, so she'd do what her husband told her? Or if he hadn't made Lot
such a shithead, maybe she would've listened to him more. If God is omnipotent
and omniscient, why didn't he start the universe out in the first place so it
would come out the way he wants? Why's he constantly repairing and complaining?
No, there's one thing the Bible makes clear: The biblical God is a sloppy
manufacturer. He's not good at design, he's not good at execution. He'd be out
of business if there was any competition.
"That's why I don't believe we're an
experiment. There might be lots of experimental planets in the universe, places
where apprentice gods get to test out their skills. What a shame Rankin and
Joss weren't born on one of those planets. But on this planet"--again he
waved at the window--"there isn't any microintervention. The gods don't
drop in on us to fix things up when we've botched it. You look at human history
and it's clear we've been on our own."
"Until now," she said.
"Deus ex machina? That's what you think? You think the gods finally took
pity on us and sent the Machine?"
"More like Machina ex deo, or
whatever the right Latin is. No, I don't think we're the experiment. I think
we're the control, the planet that nobody was interested in, the place where
nobody intervened at all. A calibration world gone to seed. This is what
happens if they don't intervene. The Earth is an object lesson for the
apprentice gods. If you really screw up,' they get told, `you'll make something
like Earth.' But of course it'd be a waste to destroy a perfectly good world.
So they look in on us from time to time, just in case. Maybe each time they
bring by the gods who screwed up. Last time they looked we're frolicking in the
savannas, trying to outrace the antelopes. `Okay, that's fine,' they say. These
guys aren't gonna give us any trouble. Look in on `em in another ten million
years. But just to be on the safe side, monitor `em at radio frequencies.'
"Then one day there's an alarm. A
message from Earth. `What? They have television already? Let's see what they're
into.' Olympic stadium. National flags. Bird of prey. Adolf Hitler. Thousands
of cheering people. `Uh-oh,' they say. They know the warning signs. Quick as a
flash they tell us, `Cut it out, you guys. That's a perfectly good planet you
have there. Disorganized, but serviceable. Here, build this Machine instead.'
They're worried about us. They see we're on a downward slope. They think we
should be in a hurry to get repaired. So I think so, too. We have to build the
Machine."
She knew what Drumlin would have thought
of arguments like this. Although much that Hadden had just said resonated with
her own thinking, she was tired of these beguiling and confident speculations
on what the Vegans had in mind. She wanted the project to continue, the Machine
completed and activated, the new stage in human history begun. She still
mistrusted her own motives, was still wary even when she was mentioned as a
possible member of the crew on a completed Machine. So the delays in resuming
construction served a purpose for her. They bought time for her to work her
problems through.
"We'll have dinner with Yamagishi.
You'll like him. But we're a little worried about him. He keeps his oxygen
partial pressure so low at night."
"What do you mean?"
"Well, the lower the oxygen content
in the air, the longer you live. At least that's what the doctors tell us. So
we all get to pick the amount of oxygen in our rooms. In daytime you can't
bring it much below twenty percent, because you get groggy. It impairs mental
functioning. But at night, when you're sleeping anyway, you can lower the
oxygen partial pressure. There's a danger, though. You can lower it too much.
Yamagishi's down to fourteen percent these days, because he wants to live
forever. As a result, he's not lucid until lunchtime."
"I've been that way all my life, at
twenty percent oxygen." She laughed.
"Now he's experimenting with
noötropic drugs to remove the grogginess. You know, like piracetam. They
definitely improve memory. I don't know that it actually makes you smarter, but
that's what they say. So Yamagishi is taking an awful lot of noötropics, and
he's not breathing enough oxygen at night."
"So does he behave cuckoo?"
"Cuckoo? It's hard to tell. I don't
know very many ninety-two-year-old Class A war criminals."
"That's why every experiment needs a
control," she said. He smiled.
Even at his advanced age, Yamagishi
displayed the erect bearing he had acquired during his long service in the
Imperial Army. He was a small man, entirely bald, with an inconspicuous white
mustache and a fixed, benign expression on his face.
"I am here because of hips," he
explained. "I know about cancer, and lifetimes. But I am here because of
hips.
At my age bones break easily. Baron
Tsukuma died from falling from his futon onto his tatami. One-half meter, he
fell. One-half meter. And his bones broke. In zero g, hips do not break."
This seemed very sensible.
A few gastronomic compromises had been
made, but the dinner was of surprising elegance. A specialized small technology
had been developed for weightless dining. Serving utensils had lids, wine
glasses had tops and straws. Foods such as nuts or dried corn flakes were
prohibited.
Yamagishi urged the caviar on her. It was
one of the few Western foods, be explained, that cost more per kilogram to buy
on Earth than to ship to space. The cohesion of the individual caviar eggs was
a lucky break, Ellie mused. She tried to imagine thousands of separate eggs in
individual free-fall, clouding the passageways of this orbiting retirement
home. Suddenly she remembered that her mother was also in a retirement home,
several orders of magnitude more modest than this one. In fact, orienting
herself by the Great Lakes, visible out the window at this moment, she could
pinpoint her mother's location. She could spend two days chatting it up in
Earth orbit with bad-boy billionaires, but couldn't spare fifteen minutes for a
phone call with her mother? She promised herself to call as soon as she landed
in Cocoa Beach. A communiqué from Earth orbit, she told herself, might be too
much novelty for the senior citizens' rest home in Janesville, Wisconsin.
Yamagishi interrupted her train of
thought to inform her that he was the oldest man in space. Ever. Even the
former Chinese Vice Premier was younger. He removed his coat, rolled up his
right sleeve, flexed his biceps, and asked her to feel his muscle. He was soon
full of vivid and quantitative detail about the worthy charities to which he
had been a major contributor.
She tried to make polite conversation.
"It's very placid and quiet up here. You must be enjoying your
retirement."
She had addressed this bland remark to
Yamagishi, but Hadden replied.
"It's not entirely uneventful. Occasionally
there's a crisis and we have to move fast."
"Solar flare, extremely bad. Make
you sterile," Yamagishi volunteered.
"Yeah, if there's a major solar
flare monitored by telescope, you have about three days before the charged
particles hit the Chateau. So the permanent residents, like Yamagishi-san and
me, we go to the storm shelter. Very spartan, very confined. But it has enough
radiation shielding to make a difference. There's some secondary radiation, of
course. The thing is, all the nonpermanent staff and visitors have to leave in
the three-day period. That kind of an emergency can tax the commercial fleet.
Sometimes we have to call in NASA or the Soviets to rescue people. You wouldn't
believe who you flush out in solar-flare events-- Mafiosi, heads of
intelligence services, beautiful men and women..."
"Why do I get the feeling that sex
is high on the list of imports from Earth?" she asked a little
reluctantly.
"Oh, it is, it is. There's lots of
reasons. The clientele, the location. But the main reason is zero g. In zero g
you can do things at eighty you never thought possible at twenty. You ought to
take a vacation up here-- with your boyfriend. Consider it a definite
invitation."
"Ninety," said Yamagishi.
"I beg your pardon?"
"You can do things at ninety you
didn't dream of at twenty. That's what Yamagishi-san is saying. That's why
everyone wants to come up here."
Over coffee, Hadden returned to the topic
of the Machine.
"Yamagishi-san and me are partners
with some other people. He's the Honorary Chairman of the Board of Yamagishi
Industries. As you know, they're the prime contractor for the Machine component
testing going on in Hokkaido. Now imagine our problem. I'll give you a
for-instance. There are three big spherical shells, one inside the other.
They're made of a niobium alloy, they have peculiar patterns cut into them, and
they're obviously designed to rotate in three orthogonal directions very fast
in a vacuum. Benzels, they're called. You know all this, of course. What
happens if you make a scale model of the three benzels and spin them very fast?
What happens? All knowledgeable physicists think nothing will happen. But, of
course, nobody's done the experiment. This precise experiment. So nobody really
knows. Suppose something does happen when the full Machine is activated. Does
it depend on the speed of rotation? Does it depend on the composition of the
benzels? On the pattern of the cutouts? Is it a question of scale? So we've
been building these things, and running them--scale models and full-scale
copies, both. We want to spin our version of the big benzels, the ones that'll
be mated to the other components in the two Machines. Suppose nothing happens
then. Then we'd want to add additional components, one by one. We'd keep
plugging them in, a small systems integration job at every step, and then maybe
there'd be a time when we plug in a component, not the last one, and the
Machine does something that knocks our socks off. We're only trying to figure
out how the Machine works. You see what I'm driving at?"
"You mean you've been secretly
assembling an identical copy of the Machine in Japan?"
"Well, it's not exactly a secret.
We're testing out the individual components. Nobody said we can only test them
one at a time. So here's what Yamagishi-san and I propose: We change the
schedule on the experiments in Hokkaido. We do full-up systems integration now,
and if nothing works we'll do the component-by-component testing later. The
money's all been allocated anyway.
"We think it'll be months--maybe
years--before the American effort gets back on track. And we don't think the
Russians can do it even in that time. Japan's the only possibility. We don't
have to announce it right away. We don't have to make a decision about
activating the Machine right away. We're just testing components."
"Can you two make this kind of
decision on your own?"
"Oh, it's well within what they call
our designated responsibilities. We figure we can catch up to where the Wyoming
Machine was in about six months. We'll have to be much more careful about
sabotage, of course. But if the components are okay, I think the Machine will
be okay: Hokkaido's kind of hard to get to. Then, when everything is checked
and ready, we can ask the World Machine Consortium if they'd like to give it a
try. If the crew is willing, I bet you the Consortium will go along. What do
you think, Yamagishi- san?"
Yamagishi had not heard the question. He
was softly singing "Free-Fall" to himself; it was a current hit song
full of vivid detail about succumbing to temptation in Earth orbit. He did not
know all the words, he explained when the question was repeated.
Unperturbed, Hadden continued. "Now
some of the components will have been spun or dropped or something. But in any
case they'll have to pass the prescribed tests. I didn't think that would be
enough to scare you off. Personally, I mean."
"Personally? What makes you think
I'm going? Nobody's asked me, for one thing, and there are a number of new
factors."
"The probability is very high that
the Selection Committee will ask you, and the President will be for it
enthusiastically. C'mon," he said, grinning, "you wanna spend your
whole life in the sticks?"
It
was cloudy over Scandinavia and the North Sea, and the English Channel was
covered with a lacy, almost transparent, cobweb of fog.
"Yes, you go." Yamagishi was on
his feet, his hands stiffly at his sides. He gave her a deep bow.
"Speaking for the twenty-two million
employees of the corporations I control, very nice to meet you."
She dozed fitfully in the sleeping
cubicle they had assigned her. It was tethered loosely to two walls so she
would not, in the course of turning over in zero g, propel herself against some
obstacle. She awoke while everyone else seemed to be still asleep and pulled
herself along a series of handholds until she found herself before the grand
window. They were over the night side. The Earth was in darkness except for a
patchwork and sprinkle of light, the plucky attempt of humans to compensate for
the opacity of the Earth when their hemisphere was averted from the Sun. Twenty
minutes later, at sunrise, she decided that, if they asked her, she would say
yes.
Hadden came up behind her, and she started just a little.
"It looks great, I admit. I've been up here for years and it still looks
great. But doesn't it bother you that there's a spaceship around you? See, there's
an experience no one's ever had yet. You're in a space suit, there's no tether,
no spacecraft. Maybe the Sun is behind you, and you're surrounded on all sides
by stars. Maybe the Earth is below you. Or maybe some other planet. I kind of
fancy Saturn myself. There you are, floating in space, like you really are one
with the cosmos. Space suits nowadays have enough consumables to last you for
hours. The spacecraft that dropped you off could be long gone. Maybe they'll
rendezvous with you in an hour. Maybe not.
"The best would be if the ship wasn't
coming back. Your last hours, surrounded by space and stars and worlds. If you
had an incurable disease, or if you just wanted to give yourself a really nifty
last indulgence, how could you top that?"
"You're serious? You want to market
this...scheme?"
"Well, too soon to market. Maybe
it's not exactly the right way to go about it. Let's just say I'm thinking of
feasibility testing."
She decided that she would not tell
Hadden of her decision, and he did not ask. Later, as the Narnia was beginning
its rendezvous and docking with Methuselah, Hadden took her aside.
"We were saying that Yamagishi is
the oldest person up here. Well, if you talk about permanently up here-- I
don't mean staff and astronauts and dancing girls--I'm the youngest person up
here. I've got a vested interest in the answer, I know, but it's a definite
medical possibility that zero g'll keep me alive for centuries. See, I'm
engaged in an experiment on immortality.
"Now, I'm not bringing this up so I
can boast. I'm bringing it up for a practical reason. If we're figuring out
ways to extend our lifespans, think of what those creatures on Vega must have
done. They probably are immortal, or close enough. I'm a practical person, and
I've thought a lot now about immortality. I've probably thought longer and more
seriously about it than anybody else. And I can tell you one thing for sure
about immortals: They're very careful. They don't leave things to chance.
They've invested too much effort in becoming immortal. I don't know what they
look like, I don't know what they want from you, but if you ever get to see
them, this is the only piece of practical advice I have for you: Something you
think is dead cinch safe, they'll consider an unacceptable risk. If there's any
negotiating you get to do up there, don't forget what I'm telling you."
CHAPTER 17
The Dream
of the Ants
Human
speech is like a cracked kettle on which we tap crude rhythms for bears to
dance to, while we long to make music that will melt the stars.
-GUSTAVE FLAUBERT Madame Bovary (1857)
Popular theology...is a massive
inconsistency derived from ignorance....The gods exist because nature herself
has imprinted a conception of them on the minds of men.
-CICERO De Natura Deorum, I, 1
ELLIE WAS
in the midst of packing notes, magnetic tapes, and a palm frond for shipment to
Japan when she received word that her mother had suffered a stroke. Immediately
afterward, she was brought a letter by project courier. It was from John
Staughton, and there were no polite preliminaries:
Your
mother and I would often discuss your deficiencies and shortcomings. It was
always a difficult conversation. When I defended you (and, although you may not
believe it, this happened often), she told me that I was putty in your hands.
When I criticized you, she told me to mind my own business.
But I want you to know that your
unwillingness to visit her in the last few years, since this Vega business, was
a source of continuing pain to her. She would tell her cronies at that dreadful
nursing home she insisted on going to that you'd be visiting her soon. For
years she told them that. "Soon." She planned how she would show her
famous daughter around, in what order she'd introduce you to that decrepit
bunch.
You probably won't want to hear this, and
I tell it to you with sorrow. But it's for your own good. Your behavior was
more painful to her than anything that ever happened to her, even your father's
death. You may be a big shot now, your hologram available all over the world,
hobnobbing with politicians and so on, but as a human being, you haven't
learned anything since high school...
Her eyes
welling with tears, she began to crumple the letter and its envelope, but
discovered some stiff piece of paper inside, a partial hologram made from an
old two-dimensional photograph by a computer extrapolation technique. You had a
faint but satisfactory sense of being able to see around edges and corners. It
was a photo she had never seen before. Her mother as a young woman, quite
lovely, smiled out of the picture, her aim casually draped over the shoulder of
Ellie's father, who sported what seemed to be a day's growth of beard. They
both seemed radiantly happy. With a surge of anguish, guilt, fury at Staughton,
and a little self-pity, Ellie weighed the evident reality that she would never
see either of the people in that picture again.
Her mother lay immobile in the bed. Her
expression was oddly neutral, registering neither joy nor regret, merely...a
kind of waiting. Her only motion was an occasional blink of her eyes. Whether
she could hear or understand what Ellie was saying was unclear. Ellie thought
about communications schemes. She couldn't help it; the thought arose unbidden:
one blink for yes, two blinks for no. Or hook up an encephalograph with a
cathode ray tube that her mother could see, and teach her to modulate her beta
waves. But this was her mother, not Alpha Lyrae, and what was called for here
was not decryption algorithms but feeling.
She held her mother's hand and talked for
hours. She rambled on about her mother and her father, her childhood. She
recalled being a toddler among the newly washed sheets, being swept up to the
sky. She talked about John Staughton. She apologized for many things. She cried
a little.
Her mother's hair was awry and, finding a
brush, she prettified her. She examined the lined face and recognized her own.
Her mother's eyes, deep and moist, stared fixedly, with only an occasional
blink into, it seemed, a great distance.
"I know where I come from,"
Ellie told her softly. Almost imperceptibly, her mother shook her head from
side to side, as though she were regretting all those years in which she and
her daughter had been estranged. Ellie gave her mother's hand a little squeeze
and thought she felt one in return.
Her mother's life was not in danger, she
was told. If there was any change in her condition, they would call at once to
her office in Wyoming. In a few days, they would be able to move her from the
hospital back to the nursing home, where the facilities, she was assured, were
adequate.
Staughton seemed subdued, but with a
depth of feeling for her mother she had not guessed at. She would call often,
she told him.
The austere marble lobby displayed,
perhaps incongruously, a real statue--not a holograph--of a nude woman in the
style of Praxiteles. They ascended in an Otis-Hitachi elevator, in which the
second language was English rather than Braille, and she found herself ushered
through a large barn of a room in which people were huddled over word
processors. A word would be typed in Hiragana, the fifty-one-letter Japanese
phonetic alphabet, and on the screen would appear the corresponding Chinese
ideogram in Kanji. There were hundreds of thousands of such ideograms, or
characters, stored in the computer memories, although only three or four
thousand were generally needed to read a newspaper. Because many characters of
entirely different meanings were expressed by the same spoken word, all
possible translations into Kanji were printed out, in order of probability. The
word processor had a contextual subroutine in which the candidate characters
were also queued according to the computer's estimate of the intended meaning.
It was rarely wrong. In a language which had until recently never had a
typewriter, the word processor was working a communications revolution not
fully admired by traditionalists.
In the conference room they seated
themselves on low chairs--an evident concession to Western tastes-- around a
low lacquered table, and tea was poured. In Ellie's field of view, beyond the
window was the city of Tokyo. She was spending much time before windows, she
thought. The newspaper was the Asahi Shimbun--the Rising Sun News--and she was
interested to see that one of the political reporters was a woman, a rarity by
the standards of the American and Soviet media. Japan was engaged in a national
reassessment of the role of women. Traditional male privileges were being
surrendered slowly in what seemed to be an unreported strect-by-strect battle.
Just yesterday the president of a firm called Nanoelectronics had bemoaned to
her that there wasn't a "girl" in Tokyo who still knew how to tie an
obi. As with clip-on bow ties, an easily donned simulacrum had captured the
market. Japanese women had better things to do than spend half an hour every
day wrapping and tucking. The reporter was dressed in an austere business suit,
the hem falling to her calves.
To maintain security, no press visitors
were permitted at the Hokkaido Machine site. Instead, when crew members or
project officials came to the main island of Honshu, they routinely scheduled a
round of interviews with the Japanese and foreign news media. As always, the
questions were familiar. Reporters all over the world had nearly the same
approach to the Machine, if you made a few allowances for local idiosyncrasies.
Was she pleased that, after the American and Soviet
"disappointments," a Machine was being built in Japan? Did she feel
isolated in the northern island of Hokkaido? Was she concerned because the
Machine components being used in Hokkaido had been tested beyond the strictures
of the Message?
Before 1945, this district of the city
had been owned by the Imperial Navy, and indeed, immediately adjacent she could
see the roof of the Naval Observatory, its two silver domes housing telescopes
still used for timekeeping and calendrical functions. They were gleaming in the
noonday Sun. Why did the Machine include a dodecahedron and the three spherical
shells called benzels? Yes, the reporters understood that she didn't know. But
what did she think? She explained that on an issue of this sort it was foolish
to have an opinion in the absence of evidence. They persisted, and she pleaded
the virtues of a tolerance for ambiguity. If there was a real danger, should
they send robots instead of people, as a Japanese artificial intelligence
expert had recommended? Are there any personal effects she would be taking with
her? Any family pictures? Microcomputers? A Swiss Army knife?
Ellie noticed two figures emerge through
a trapdoor onto the roof of the nearby observatory. Their faces were obscured
by visors. They were garbed in the blue-gray quilted armor of medieval Japan.
Brandishing wooden staffs taller than they were, they bowed one to another,
paused for a heartbeat, and then pummeled and parried for the next half hour.
Her answers to the reporters became a little stilted; she was mesmerized by the
spectacle before her. No one else seemed to notice. The staffs must have been
heavy, because the ceremonial combat was slow, as if they were warriors from
the ocean bottom.
Had she known Dr. Lunacharsky and Dr.
Sukhavati for many years before the receipt of the Message? What about Dr. Eda?
Mr. Xi? What did she think of them, their accomplishments? How well were the
five of them getting on? Indeed, she marveled to herself that she was a member
of such a select group. What were her impressions of the quality of the
Japanese components? What could she say about the meeting the Five had had with
Emperor Akihito? Were their discussions with Shinto and Buddhist leaders part
of a general effort by the Machine Project to gain the insights of world
religious figures before the Machine was activated, or just a courtesy to Japan
as the host country? Did she think the device could be a Trojan Horse or a
Doomsday Machine? In her answers she tried to be courteous, succinct, and noncontroversial.
The Machine Project public relations officer who had accompanied her was
visibly pleased.
Abruptly the interview was over. They
wished her and her colleagues all success, the Managing Editor said. They had
every expectation of interviewing her when she returned. They hoped she would
visit Japan often afterward. Her hosts were smiling and bowing. The quilted
warriors had retreated down the trapdoor. She could see her security people,
eyes darting, outside the now open door of the conference room. On the way out
she asked the woman reporter about the apparitions from medieval Japan.
"Oh yes," she replied.
"They are astronomers for the Coast Guard. They practice Kendo at their
lunch hour every day. You can set your watch by them."
Xi
had been born on the Long March, and had fought the Kuomintang as a youngster
during the Revolution. He served as an intelligence officer in Korea, rising
eventually to a position of authority over Chinese strategic technology. But in
the Cultural Revolution he was publicly humiliated and condemned to domestic
exile, although later he was rehabilitated with some fanfare.
One of Xi's crimes in the eyes of the
Cultural Revolution had been to admire some of the ancient Confucian virtues,
and especially one passage from the Great Learning, which for centuries before
every Chinese with even a rudimentary education knew by heart. It was upon this
passage, Sun Yatsen had said, that his own revolutionary nationalist movement
at the beginning of the twentieth century was based: The ancients who wished to
illustrate illustrious virtue throughout the Kingdom first ordered well their
own states. Wishing to order well their states, they first regulated their
families. Wishing to regulate their families, they first cultivated their
persons. Wishing to cultivate their persons, they first rectified their hearts.
Wishing to rectify their hearts, they first sought to be sincere in their
thoughts. Wishing to be sincere in their thoughts, they first extended to the utmost
their knowledge. Such extension of knowledge lay in the investigation of
things. Thus, Xi believed, the pursuit of knowledge was central for the
well-being of China. But the Red Guards had thought otherwise.
During the Cultural Revolution, Xi had
been consigned as a worker on an impoverished collective farm in Ningxia
Province, near the Great Wall, a region with a rich Muslim tradition--where,
while plowing an unpromising field, he uncovered an intricately ornamented
bronze helmet from the Han Dynasty. When reestablished in the leadership, he
turned his attention from strategic weapons to archeology. The Cultural
Revolution had attempted to sever a 5,000-year-old continuous Chinese cultural
tradition. Xi's response was to help build bridges to the nation's past.
Increasingly he devoted his attention to the excavation of the underground
funerary city of Xian.
It was there that the great discovery had
been made of the terra-cotta army of the Emperor after whom China itself was
named. His official name was Qin Shi Huangdi, but through the vagaries of
transliteration had come to be widely known in the West as Ch'in. In the third
century B.C., Qin unified the country, built the Great Wall, and
compassionately decreed that upon his death lifelike terracotta models be
substituted for the members of his entourage--soldiers, servants, and
nobles--who, according to earlier tradition, would have been buried alive with
his body. The terra-cotta army was composed of 7,500 soldiers, roughly a
division. Every one of them had distinct facial features. You could see that
people from all over China were represented. The Emperor had welded many
separate and warring provinces into one nation. A nearby grave contained the
almost perfectly preserved body of the Marchioness of Tai, a minor functionary
in the Emperor's court. The technology for preserving bodies--you could dearly
see the severe expression on the face of the Marchioness, refined perhaps from
decades of dressing down the servants--was vastly superior to that of ancient
Egypt.
Qin had simplified the writing, codified
the law, built roads, completed the Great Wall, and unified the country. He
also confiscated weapons. While he was accused of massacring scholars who
criticized his policies, and burning books because some knowledge was
unsettling, he maintained that he had eliminated endemic corruption and
instituted peace and order. Xi was reminded of the Cultural Revolution. He
imagined reconciling these conflicting tendencies in the heart of a single person.
Qin's arrogance had reached staggering proportions--to punish a mountain that
had offended him, he ordered it denuded of vegetation and painted red, the
color worn by condemned criminals. Qin was great, but he was also mad. Could
you unify a collection of diverse and contentious nations without being a
little mad? You'd have to be crazy even to attempt it, Xi laughingly told
Ellie.
With increasing fascination, Xi had
arranged for massive excavations at Xian. Gradually, he became convinced that the
Emperor Qin himself was also lying in wait, perfectly preserved, in some great
tomb near the disinterred terracotta army. Nearby, according to ancient
records, was also buried under a great mound a detailed model of the nation of
China in 210 B.C., With every temple and pagoda meticulously represented. The
rivers, it was said, were made of mercury, with the Emperor's barge in
miniature perpetually navigating his underground domain. When the ground at
Xian was found to be contaminated with mercury, Xi's excitement grew.
Xi had unearthed a contemporary account
that described a great dome the Emperor had commissioned to overarch this
miniature realm, called, like the real one, the Celestial Kingdom. As written
Chinese had hardly changed in 2,200 years, he was able to read the account
directly, without benefit of an expert linguist. A chronicler from the time of
Qin was speaking to Xi directly. Many nights Xi would put himself to sleep
trying to envision the great Milky Way that sundered the vault of the sky in
the domed tomb of the great Emperor, and the night ablaze with comets which had
appeared at his passing to honor his memory.
The search for Qin's tomb and for his
model of the universe had occupied Xi over the last decade. He had not found it
yet, but his quest had captured the imagination of China. It was said of him,
"There are a billion people in China, but there is only one Xi." In a
nation slowly easing restraints on individuality, he was seen as exerting a
constructive influence.
Qin, it was clear, had been obsessed by
immortality. The man who gave his name to the most populous nation on Earth,
the man who built what was then the largest structure on the planet, was,
predictably enough, afraid he would be forgotten. So he caused more monumental
structures to be erected; preserved, or reproduced for the ages, the bodies and
faces of his courtiers; built his own still-elusive tomb and world model; and
sent repeated expeditions into the Eastern Sea to seek the elixir of life. He
complained bitterly of the expense as he launched each new voyage. One of these
missions involved scores of ocean-going junks and a crew of 3,000 young men and
women. They never returned, and their fate is unknown. The water of immortality
was unavailable.
Just fifty years later, wet rice
agriculture and iron metallurgy suddenly appeared in Japan--developments that
profoundly altered the Japanese economy and created a class of warrior
aristocrats. Xi argued that the Japanese name for Japan clearly reflected the
Chinese origin of Japanese culture: The Land of the Rising Sun. Where would you
have to be standing, Xi asked, for the Sun to be rising over Japan? So the very
name of the daily newspaper that Ellie had just visited was, Xi proposed, a
reminder of the life and times of the Emperor Qin. Ellie thought that Qin made
Alexander the Great a schoolyard bully by comparison. Well, almost.
If Qin had been obsessed with
immortality, Xi was obsessed with Qin. Ellie told him about her visit to Sol
Had-den in Earth orbit, and they agreed that were the Emperor Qin alive in the
waning years of the twentieth century, Earth orbit is where he would be. She
introduced Xi to Hadden by videophone and then left them to talk alone. Xi's
excellent English had been honed during his recent involvement in the transfer
of the Crown Colony of Hong Kong to the Chinese People's Republic. They were
still talking when the Methuselah set, and had to continue through the network
of communications satellites in geosynchronous orbit. They must have hit it
off. Soon after, Hadden requested that the activation of the Machine be
synchronized so that he would be overhead at that moment. He wanted Hokkaido in
the focus of his telescope, he said, when the time came.
"Do Buddhists believe in God, or
not?" Ellie asked on their way to have dinner with the Abbot.
"Their position seems to be,"
Vaygay replied dryly, "that their God is so great he doesn't even have to
exist."
As they sped through the countryside,
they talked about Utsumi, the Abbot of the most famous Zen Buddhist monastery
in Japan. A few years before, at ceremonies marking the fiftieth anniversary of
the destruction of Hiroshima, Utsumi had delivered a speech that commanded
worldwide attention. He was well connected in Japanese political life, and
served as a kind of spiritual adviser to the ruling political party, but he
spent most of his time in monastic and devotional activities.
"His father was also the Abbot of a
Buddhist monastery," Sukhavad mentioned. Ellie raised her eyebrows.
"Don't look so surprised. Marriage
was permitted to them, like the Russian Orthodox clergy. Isn't that right,
Vaygay?"
"That was before my time," he
said, a little distractedly. The restaurant was set in a grove of bamboo and
was called Ungetsu--the Clouded Moon; and indeed there was a clouded moon in
the early evening sky.
Their Japanese hosts had arranged that
there be no other guests. Ellie and her companions removed their shoes and,
padding in their stocking feet, entered a small dining room which looked out on
stalks of bamboo.
The Abbot's head was shaved, his garment
a robe of black and silver. He greeted them in perfect colloquial English, and
his Chinese, Xi later told her, turned out to be passable as well. The
surroundings were restful, the conversation lighthearted. Each course was a
small work of art, edible jewels. She understood how nouvelle cuisine had its
origins in the Japanese culinary tradition. If the custom were to eat the food
blindfolded, she would have been content. If, instead, the delicacies were
brought out only to be admired and never to be eaten, she would also have been
content. To look and eat both was an intimation of heaven. Ellie was seated
across from the Abbot and next to Lunacharsky. Others inquired about the
species--or at least the kingdom--of this or that morsel. Between the sushi and
the ginkgo nuts, the conversation turned, after a fashion, to the mission.
"But why do we communicate?"
the Abbot asked.
"To exchange information,"
replied Lunacharsky, seemingly devoting full attention to his recalcitrant
chopsticks.
"But why do we wish to exchange
information?"
"Because we feed on information.
Information is necessary for our survival. Without information we die."
Lunacharsky was intent on a ginkgo nut
that slipped off his chopsticks each time be attempted to raise it to his
mouth. He lowered his head to meet the chopsticks halfway.
"I believe," continued the
Abbot, "that we communicate out of love or compassion." He reached
with his fingers for one of his own ginkgo nuts and placed it squarely in his
mouth.
"Then you think," she asked,
"that the Machine is an instrument of compassion? You think there is no
risk?"
"I can communicate with a
flower," he went on as if in response. "I can talk to a stone. You
would have no difficulty understanding the beings--that is the proper word?--of
some other world."
"I am perfectly prepared to believe
that the stone communicates to you," Lunacharsky said, chewing on the
ginkgo nut. He had followed the Abbot's example. "But I wonder about you
communicating to the stone. How would you convince us that you can communicate
with a stone? The world is full of error. How do you know you are not deceiving
yourself?"
"Ah, scientific skepticism."
The Abbot flashed a smile that Ellie found absolutely winning; it was innocent,
almost childlike.
"To communicate with a stone, you
must become much less...preoccupied. You must not do so much thinking, so much
talking. When I say I communicate with a stone, I am not talking about words.
The Christians say. `In the beginning was the Word.' But I am talking about a
communication much earlier, much more fundamental than that."
"It's only the Gospel of Saint John
that talks about the Word," Ellie commented--a little pedantically, she
thought as soon as the words were out of her mouth. `The earlier Synoptic
Gospels say nothing about it. It's really an accretion from Greek philosophy.
What kind of preverbal communication do you mean?"
"Your question is made of words. You
ask me to use words to describe what has nothing to do with words. Let me see.
There is a Japanese story called The Dream of the Ants.' It is set in the
Kingdom of the Ants. It is a long story, and I will not tell it to you now. But
the point of the story is this: To understand the language of the ants, you
must become an ant."
"The language of the ants is in fact
a chemical language," said Lunacharsky, eyeing the Abbot keenly.
"They lay down specific molecular traces to indicate the path they have
taken to find food. To understand the language of the ants, I need a gas
chromatograph, or a mass spectrometer. I do not need to become an ant."
"Probably, that is the only way you
know to become an ant," returned the Abbot, looking at no one in
particular. `Tell me, why do people study the signs left by the ants?"
"Well," Ellie offered, "I
guess an entomologist would say it's to understand the ants and ant society.
Scientists take pleasure in understanding."
"That is only another way of saying
that they love the ants."
She suppressed a small shudder.
"Yes, but those who fund the
entomologists say something else. They say it's to control the behavior of
ants, to make them leave a house they've infested, say, or to understand the
biology of soil for agriculture. It might provide an alternative to pesticides.
I guess you could say there's some love of the ants in that," Ellie mused.
"But it's also in our
self-interest," said Lunacharsky. `The pesticides are poisonous to us as
well."
"Why are you talking about
pesticides in the midst of such a dinner?" shot Sukhavati from across the
table.
"We will dream the dream of the ants
another time," the Abbot said softly to Ellie, flashing again that
perfect, untroubled smile.
Reshod with the aid of meter-long
shoehorns, they approached their small fleet of automobiles, while the serving
women and proprietress smiled and bowed ceremoniously. Ellie and Xi watched the
Abbot enter a limousine with some of their Japanese hosts.
"I asked him, If he could talk with
a stone, could he communicate with the dead?" Xi told her. "And what
did he say?"
"He said the dead were easy. His
difficulties were with the living."
CHAPTER 18
Superunification
A rough
sea! Stretched out over Sado The Milky Way.
-MATSUO BASHO (1644-94) Poem
PERHAPS
THEY had chosen Hokkaido because of its maverick reputation. The climate
required construction techniques that were highly unconventional by Japanese
standards, and this island was also the home of the Ainu, the hairy aboriginal
people still despised by many Japanese. Winters were as severe as the ones in
Minnesota or Wyoming. Hokkaido posed certain logistical difficulties, but it
was out of the way in case of a catastrophe, being physically separated from
the other Japanese islands. It was by no means isolated, however, now that the
fifty-one-kilometer-long tunnel connecting it with Honshu had been completed;
it was the longest submarine tunnel in the world.
Hokkaido had seemed safe enough for the
testing of individual Machine components. But concern had been expressed about actually
assembling the Machine in Hokkaido. This was, as the mountains that surrounded
the facility bore eloquent testimony, a region surging with recent volcanism.
One mountain was growing at the rate of a meter a day. Even the
Soviets--Sakhalin Island was only forty-three kilometers away, across the Soya,
or La Pérouse Strait--had voiced some misgivings on this score. But in for a
kopek, in for a ruble. For all they knew, even a Machine built on the far side
of the Moon could blow up the Earth when activated. The decision to build the
Machine was the key fact in assessing dangers; where the thing was built was an
entirely secondary consideration.
By early July, the Machine was once again
taking shape. In America, it was still embroiled in political and sectarian
controversy; and there were apparently serious technical problems with the
Soviet Machine. But here--in a facility much more modest than that in
Wyoming--the dowels had been mounted and the dodecahedron completed, although
no public announcement had been made. The ancient Pythagoreans, who first
discovered the dodecahedron, had declared its very existence a secret, and the
penalties for disclosure were severe. So perhaps it was only fitting that this
house-sized dodecahedron, halfway around the world and 2,600 years later, was
known only to a few.
The Japanese Project Director had decreed
a few days' rest for everyone. The nearest city of any size was Obihiro, a
pretty place at the confluence of the Yubetsu and Toka-chi rivers. Some went to
ski on strips of unmelted snow on Mount Asahi; others to dam thermal streams
with a makeshift rock wall, warming themselves with the decay of radioactive
elements cooked in some supernova explosion billions of years before. A few of
the project personnel went to the Bamba races, in which massive draft horses
pulled heavy ballasted sledges over parallel strips of farmland. But for a
serious celebration, the Five flew by helicopter to Sapporo, the largest city
on Hokkaido, situated less than 200 kilometers away.
Propitiously enough, they arrived in time
for the Tana-bata Festival. The security risk was considered small, because it
was the Machine itself much more than these five people that was essential for
the success of the project. They had undergone no special training, beyond
thorough study of the Message, the Machine, and the miniaturized instruments
they would take with them. In a rational world, they would be easy to replace,
Ellie thought, although the political impediments in selecting five humans
acceptable to all members of the World Machine Consortium had been
considerable.
Xi and Vaygay had "unfinished
business," they said, which could not be completed except over sake. So
she, Devi Sukhavati, and Abonneba Eda found themselves guided by their Japanese
hosts along one of the side streets of the Odori Promenade, past elaborate
displays of paper streamers and lanterns, pictures of leaves, turtles, and
ogres, and appealing cartoon representations of a young man and woman in
medieval costume. Between two buildings was stretched a large piece of
sailcloth on which had been painted a peacock rampant.
She glanced at Eda in his flowing,
embroidered linen robe and high stiff cap, and at Sukhavati in another stunning
silk sari, and delighted in the company. The Japanese Machine had so far passed
all the prescribed tests, and a crew had been agreed upon that was not merely
representative--if imperfectly--of the population of the planet, but which
included genuine individuals not stamped out by the official cookie cutters of
five nations. Every one of them was in some sense a rebel.
Eda, for instance. Here he was, the great
physicist, the discoverer of what was called superunification-- one elegant
theory, which included as special cases physics that ran the gamut from
gravitation to quarks. It was an achievement comparable to Isaac Newton's or
Albert Einstein's, and Eda was being compared to both. He had been born a
Muslim in Nigeria, not unusual in itself, but he was an adherent of an
unorthodox Islamic faction called the Ahmadiyah, which encompassed the Sufis.
The Sufis, he explained after the evening with Abbot Utsumi, were to Islam what
Zen was to Buddhism. Ahmadiyah proclaimed "a Jihad of the pen, not the
sword."
Despite his quiet, indeed humble
demeanor, Eda was a fierce opponent of the more conventional Muslim concept of
Jihad, holy war, and argued instead for the most vigorous free exchange of
ideas. In this he was an embarrassment for much of conservative Islam, and
opposition to his participation in the Machine crew had been made by some
Islamic nations. Nor were they alone. A black Nobel laureate--said occasionally
to be the smartest person on Earth--proved too much for some who had masked
their racism as a concession to the new social amenities. When Eda visited
Tyrone Free in prison four years earlier, there was a marked upsurge in pride
among black Americans, and a new role model for the young. Eda brought out the
worst in the racists and the best in everyone else.
"The time necessary to do physics is
a luxury," he told Ellie. `There are many people who could do the same if
they had the same opportunity. But if you must search the streets for food, you
will not have enough time for physics. It is my obligation to improve
conditions for young scientists in my country." As he had slowly become a
national hero in Nigeria, he spoke out increasingly about corruption, about an
unfair sense of entitlement, about the importance ` of honesty in science and
everywhere else, about how great a nation Nigeria could be. It had as many
people as the United States in the 1920s, he said. It was rich in resources,
and its many cultures were a strength. If Nigeria could overcome its problems,
he argued, it would be a beacon for the rest of the world. Seeking quiet and
isolation in all other things, on these issues he spoke out.
Many Nigerian men and women--Muslims,
Christians, and Animists, the young but not only the young-- took his vision
seriously.
Of Eda's many remarkable traits, perhaps
the most striking was his modesty. He rarely offered opinions. His answers to
most direct questions were laconic. Only in his writings--or in spoken language
after you knew him well--did you glimpse his depth. Amidst all the speculation
about the Message and the Machine and what would happen after its activation,
Eda had volunteered only one comment: In Mozambique, the story goes, monkeys do
not talk, because they know if they utter even a single word some man will come
and put them to work.
With such a voluble crew it was strange
to have someone as taciturn as Eda. Like many others, Ellie paid especial
attention to even his most casual utterances. He would describe as
"foolish errors" his earlier, only partly successful version of
superunification. The man was in his thirties and, Ellie and Devi had privately
agreed, devastatingly attractive. He was also, she knew, happily married to one
wife; she and their children were in Lagos at the moment.
A stand of bamboo cuttings that had been
planted for such occasions was adorned, festooned, indeed weighed down with
thousands of strips of colored paper. Young men and women especially could be
seen augmenting the strange foliage. The Tanabata Festival is unique in Japan
for its celebration of love. Representations of the central story were
displayed on multipaneled signs and in a performance on a makeshift outdoor
stage: Two stars were in love, but separated by the Milky Way. Only once a
year, on the seventh day of the seventh month of the lunar calendar, could the
lovers contrive to meet--provided it did not rain. Ellie looked up at the
crystalline blue of this alpine sky and wished the lovers well. The young man
star, the legend went, was a Japanese sort of cowboy, and was represented by
the A7 dwarf star Altair. The young woman was a weaver, and represented by
Vega. It seemed odd to Ellie that Vega should be central to a Japanese festival
a few months before Machine activation. But if you survey enough cultures, you
will probably find interesting legends about every bright star in the sky. The
legend was of Chinese origin, and had been alluded to by Xi when she had heard
him years ago at the first meeting of the World Message Consortium in Paris.
In most of the big cities, the Tanabata
Festival was dying. Arranged marriages had ceased to be the norm, and the
anguish of the separated lovers no longer struck so responsive a chord as it
once had. But in a few places--Sapporo, Sendai, a few others--the Festival grew
more popular each year. In Sapporo it had a special poignancy because of the
still widespread outrage at Japanese-Ainu marriages. There was an entire
cottage industry of detectives on the island who would, for a fee, investigate
the relatives and antecedents of possible spouses for your children. Ainu
ancestry was still held to be a ground for summary rejection. Devi, remembering
her young husband of many years before, was especially scathing. Eda doubtless
had heard a story or two along the same line, but he was silent.
The Tanabata Festival in the Honshu city
of Sendai was now a staple on Japanese television for people who now could
rarely see the real Altair or Vega. She wondered if the Vegans would continue
broadcasting the same Message to the Earth forever. Partly because the Machine
was being completed in Japan, it received considerable attention in the
television commentary accompanying this year's Tanabata Festival. But the Five,
as they were now sometimes called, had not been required to appear on Japanese
television, and their presence here in Sapporo for the Festival was not
generally known. Nevertheless, Eda, Sukhavati, and she were readily recognized,
and they made their way back to the Obori Promenade to the accompaniment of
polite scattered applause by passersby. Many also bowed. A loudspeaker outside
a music shop blared a rock-and-roll piece that Ellie recognized. It was "I
Wanna Ricochet Off You," by the black musical group White Noise. In the
afternoon sun was a rheumy-eyed, elderly dog, which, as she approached, wagged
its tail feebly.
Japanese commentators talked of Machindo,
the Way of the Machine--the increasingly common perspective of the Earth as a
planet and of all humans sharing an equal stake in its future. Something like
it had been proclaimed in some, but by no means all, religions. Practitioners
of those religions understandably resented the insight being attributed to an
alien Machine. If the acceptance of a new insight on our place in the universe
represents a religious conversion, she mused, then a theological revolution was
sweeping the Earth. Even the American and European chiliasts had been
influenced by Machindo. But if the Machine didn't work and the Message went
away, how long, she wondered, would the insight last? Even if we had made some
mistake in interpretation or construction, she thought, even if we never
understood anything more about the Vegans, the Message demonstrated beyond a
shadow of a doubt that there were other beings in the universe, and that they were
more advanced than we. That should help keep the planet unified for a while,
she thought.
She asked Eda if he had ever had a
transforming religious experience.
"Yes," he said.
"When?" Sometimes you had to
encourage him to talk.
"When I first picked up Euclid. Also
when I first understood Newtonian gravitation. And Maxwell's equations, and
general relativity. And during my work on superunification. I have been
fortunate enough to have had many religious experiences."
"No," she returned. "You
know what I mean. Apart from science."
"Never," he replied instantly.
"Never apart from science." He told her a little of the religion he had
been born into. He did not consider himself bound by all its tenets, he said,
but he was comfortable with it. He thought it could do much good. It was a
comparatively new sect--contemporaneous with Christian Science or the Jehovah's
Witnesses--founded by Mirza Ghulam Ahmad in the Punjab. Devi apparently knew
something about the Ahmadiyah as a proselytizing sect. It had been especially
successful in West Africa. The origins of the religion were wrapped in
eschatology. Ahmad had claimed to be the Mahdi, the figure Muslims expect to
appear at the end of the world. He also claimed to be Christ come again, an
incarnation of Krishna, and a buruz, or reappearance of Mohammed.
Christian
chiliasm had now infected the Ahmadiyah, and his reappearance was imminent
according to some of the faithful. The year 2008, the centenary of Ahmad's
death, was now a favored date for his Final Return as Mahdi. The global
messianic fervor, while sputtering, seemed on average to be swelling still
further, and Ellie confessed concern about the irrational predilections of the
human species.
"At a Festival of Love," said
Devi, "you should not be such a pessimist."
In Sapporo there had been an abundant
snowfall, and the local custom of making snow and ice sculptures of animals and
mythological figures was updated. An immense dodecahedron had been meticulously
carved and was shown regularly, as a kind of icon, on the evening news. After
unseasonably warm days, the ice sculptors could be seen packing, chipping, and
grinding, repairing the damage.
That the activation of the Machine might,
one way or another, trigger a global apocalypse was a fear now often being
voiced. The Machine Project responded with confident guarantees to the public,
quiet assurances to the governments, and decrees to keep the activation time
secret. Some scientists proposed activation on November 17, an evening on which
was predicted the most spectacular meteor shower of the century. An agreeable
symbolism, they said. But Valerian argued that if the Machine was to leave the
Earth at that moment, having to fly through a cloud of cometary debris would
provide an additional and unnecessary hazard. So activation was postponed for a
few weeks, until the end of the last month of nineteen hundred and anything.
While this date was not literally the Turn of the Millennium, but a year
before, celebrations on a lavish scale were planned by those who could not be
bothered to understand the calendrical conventions, or who wished to celebrate
the coming of the Third Millennium in two consecutive Decembers.
Although the extraterrestrials could not
have known how much each crew member weighed, they specified in painstaking
detail the mass of each machine component and the total permissible mass. Very
little was left over for equipment of terrestrial design. This fact had some
years before been used as an argument for an all-woman crew, so that the
equipment allowance could be increased; but the suggestion had been rejected as
frivolous.
There was no room for space suits. They
would have to hope the Vegans would remember that humans had a propensity for
breathing oxygen. With virtually no equipment of their own, with their cultural
differences and their unknown destination, it was clear that the mission might
entail great risk. The world press discussed it often; the Five themselves,
never.
A variety of miniature cameras,
spectrometers, superconducting supercomputers, and microfilm libraries were
being urged on the crew. It made sense and it didn't make sense. There were no
sleeping or cooking or toilet facilities on board the Machine. They were taking
only a minimum of provisions, some of them stuffed in the pockets of their
coveralls. Devi was to carry a rudimentary medical kit. As far as she was
concerned, Ellie thought, she was barely planning to bring a toothbrush and a
change of underwear. If they can get me to Vega in a chair, she thought,
they'll probably be able to provide the amenities as well. If she needed a
camera, she told project officials, she'd just ask the Vegans for one.
There was a body of opinion, apparently
serious, that the Five should go naked; since clothing had not been specified
it should not be included, because it might somehow disturb the functioning of
the Machine. Ellie and Devi, among many others, were amused, and noted that
there was no proscription against wearing clothing, a popular human custom
evident in the Olympic broadcast. The Vegans knew we wore clothes, Xi and
Vaygay protested. The only restrictions were on total mass. Should we also
extract dental work, they asked, and leave eyeglasses behind? Their view
carried the day, in part because of the reluctance of many nations to be
associated with a project culminating so indecorously. But the debate generated
a little raw humor among the press, the technicians, and the Five.
"For that matter," Lunacharsky
said, "it doesn't actually specify that human beings are to go. Maybe they
would find five chimpanzees equally acceptable."
Even a single two-dimensional photograph
of an alien machine could be invaluable, she was told. And imagine a picture of
the aliens themselves. Would she please reconsider and bring a camera? Der
Heer, who was now on Hokkaido with a large American delegation, told her to be
serious. The stakes were too high, he said, for--but she cut him short with a
look so withering that he could not complete the sentence. In her mind, she
knew what he was going to say--for childish behavior. Amazingly, der Heer was
acting as if he had been the injured party in their relationship. She described
it all to Devi, who was not fully sympathetic.
Der Heer, she said, was "very
sweet." Eventually, Ellie agreed to take an ultra miniaturized video
camera. In the manifest that the project required, under "Personal
Effects," she listed "Frond, palm, 0.811 kilograms." Der Heer
was sent to reason with her.
"You know there's a splendid
infrared imaging system you can carry along for two-thirds of a kilogram. Why
would you want to take the branch of a tree?"
"A frond. It's a palm frond. I know
you grew up in New York, but you must know what a palm tree is. It's all in
Ivanhoe. Didn't you read it in high school? At the time of the Crusades,
pilgrims who made the long journey to the Holy Land took back a palm frond to
show they'd really been there. It's to keep my spirits up. I don't care how
advanced they are. The Earth is my Holy Land. I'll bring a frond to them to
show them where I came from."
Der Heer only shook his head. But when
she described her reasons to Vaygay, he said, `This I understand very
well."
Ellie remembered Vaygay's concerns and
the story he had told her in Paris about the droshky sent to the impoverished
village. But this was not her worry at all. The palm frond served another
purpose, she realized. She needed something to remind her of Earth. She was
afraid she might be tempted not to come back.
The day before the Machine was to be
activated she received a small package that had been delivered by hand to her
apartment on the site in Wyoming and transshipped by courier. There was no
return address and, inside, no note and no signature. The package held a gold
medallion on a chain. Conceivably, it could be used as a pendulum. An
inscription had been engraved on both sides, small but readable. One side read:
Hera,
superb queen with the golden robes, commanded Argus, whose glances bristle Out
through the world.
On the
obverse, she read:
This is
the response of the defenders of Sparta to the Commander of the Roman Army:
"If you are a god, you will not hurt those who have never injured you. If
you are a man, advance--and you will find men equal to yourself." And
women.
She knew who had sent it.
Next day, Activation Day, they took an
opinion poll of the senior staff on what would happen. Most thought nothing
would happen, that the Machine would not work. A smaller number believed that
the Five would somehow find themselves very quickly in the Vega system,
relativity to the contrary notwithstanding. Others suggested, variously, that
the Machine was a vehicle for exploring the solar system, the most expensive
practical joke in history, a classroom, a time machine, or a galactic telephone
booth. One scientist wrote: "Five very ugly replacements with green scales
and sharp teeth will slowly materialize in the chairs." This was the
closest to the Trojan Horse scenario in any of the responses. Another, but only
one, read "Doomsday Machine."
There was a ceremony of sorts. Speeches
were made, food and drink were served. People hugged one another. Some cried
quietly. Only a few were openly skeptical. You could sense that if anything at
all happened on Activation the response would be thunderous. There was an
intimation of joy in many faces. Ellie managed to call the nursing home and
wish her mother goodbye. She spoke the word into the mouthpiece on Hokkaido,
and in Wisconsin the identical sound was generated. But there was no response.
Her mother was recovering some motor
functions on her stricken side, the nurse told her. Soon she might be able to
speak a few words. By the time the call had been completed, Ellie was feeling
almost lighthearted. The Japanese technicians were wearing hachimaki, cloth
bands around their heads, that were traditionally donned in preparation for
mental, physical, or spiritual effort, especially combat. Printed on the
headband was a conventional projection of the map of the Earth. No single
nation held a dominant position.
There had not been much in the way of
national briefings. As far as she could tell, no one had been urged to rally
round the flag. National leaders sent short statements on videotape. The
President's was especially fine, Ellie thought:
"This is not a briefing, and not a
farewell. It's just a so long. Each of you makes this journey on behalf of a
billion souls. You represent all the peoples of the planet Earth. If you are to
be transported to somewhere else, then see for all of us--not just the science,
but everything you can learn. You represent the entire human species, past,
present, and future. Whatever happens, your place in history is secure. You are
heroes of our planet. Speak for all of us. Be wise. And . .. come back."
A few hours later, for the first time,
they entered the Machine--one by one, through a small airlock. Recessed
interior lights, very low-key, came on. Even after the Machine had been
completed and had passed every prescribed test, they were afraid to have the
Five take their places prematurely. Some project personnel worried that merely
sitting down might induce the Machine to operate, even if the benzels were
stationary. But here they were, and nothing extraordinary was happening so far.
This was the first moment she was able to lean back, a little gingerly to be
sure, into the molded and cushioned plastic. She had wanted chintz; chintz
slipcovers would have been perfect for these chairs. But even this, she
discovered, was a matter of national pride. The plastic seemed more modern,
more scientific, more serious.
Knowing of Vaygay's careless smoking
habits, they had decreed that no cigarettes could be carried on board the
Machine. Lunacharsky had uttered fluent maledictions in ten languages. Now he
entered after the others, having finished his last Lucky Strike. He wheezed
just a little as he sat down beside her. There were no seat belts in the design
extracted from the Message, so there were none in the Machine. Some project
personnel had argued, nevertheless, that it was foolhardy to omit them.
The Machine goes somewhere, she thought.
It was a means of conveyance, an aperture to elsewhere...or elsewhen. It was a
freight train barreling and wailing into the night. If you had climbed aboard,
it could carry you out of the stifling provincial towns of your childhood, to
the great crystal cities. It was discovery and escape and an end to loneliness.
Every logistical delay in manufacture and every dispute over the proper
interpretation of some subcodicil of the instructions had plunged her into
despair. It was not glory she was seeking...not mainly, not much...but instead
a kind of liberation.
She was a wonder junkie. In her mind, she
was a hill tribesman standing slack-jawed before the real Ishtar Gate of
ancient Babylon; Dorothy catching her first glimpse of the vaulted spires of
the Emerald City of Oz; a small boy from darkest Brooklyn plunked down in the
Corridor of Nations of the 1939 World's Fair, the Trylon and Perisphere
beckoning in the distance; she was Pocahontas sailing up the Thames estuary
with London spread out before her from horizon to horizon.
Her heart sang in anticipation. She would
discover, she was sure, what else is possible, what could be accomplished by
other beings, great beings--beings who had, it seemed likely, been voyaging
between the stars when the ancestors of humans were still brachiating from
branch to branch in the dappled sunlight of the forest canopy.
Drumlin, like many others she had known
over the years, had called her an incurable romantic; and she found herself
wondering again why so many people thought it some embarrassing disability. Her
romanticism had been a driving force in her life and a fount of delights.
Advocate and practitioner of romance, she was off to see the Wizard.
A status report came through by radio.
There were no apparent malfunctions, so far as could be detected with the
battery of instrumentation that had been set up exterior to the Machine. Their
main wait was for the evacuation of the space between and around the benzels. A
system of extraordinary efficiency was pumping out the air to attain the
highest vacuum ever reached on Earth. She double-checked the stowage of her
video microcamera system and gave the palm frond a pat. Powerful lights on the
exterior of the dodecahedron had turned on. Two of the spherical shells had now
spun up to what the Message had defined as critical speed. They were already a
blur to those watching outside. The third benzel would be there in a minute. A
strong electrical charge was building up. When all three spherical shells with
their mutually perpendicular axes were up to speed, the Machine would be
activated. Or so the Message had said.
Xi's face showed fierce determination,
she thought; Lunacharsky's a deliberate calm; Sukhavati's eyes were open wide;
Eda revealed only an attitude of quiet attentiveness. Devi caught her glance
and smiled. She wished she had had a child. It was her last thought before the
walls flickered and became transparent and, it seemed, the Earth opened up and
swallowed her.
PART III
THE GALAXY
So I walk on uplands unbounded, and know
that there is hope for that which Thou didst mold out of dust to have consort
with things eternal.
--The Dead
Sea Scrolls
CHAPTER 19
Naked
Singularity
...mount
to paradise By the stairway of surprise.
- RALPH WALDO EMERSON
"Merlin,"
Poems (1847)
It is not impossible that to some
infinitely superior being the whole universe may be as one plain, the distance
between planet and planet being `only as the pores in a grain of sand, and the
spaces between system and system no greater than the intervals between one
grain and the grain adjacent.
-SAMUEL TAYLOR COLERIDGE
Omniania
THEY WERE
falling. The pentagonal panels of the dodecahedron had become transparent. So
had the roof and the floor. Above and below she could make out the
organosilicate lacework and the implanted erbium dowels, which seemed to be
stirring. All three benzels had disappeared. The dodecahedron plunged, racing
down a long dark tunnel just broad enough to permit its passage. The
acceleration seemed somewhere around one g. As a result, Ellic, facing forward,
was pressed backward in her chair, while Devi, opposite her, was bending
slightly at the waist. Perhaps they should have added seat belts.
It was hard not to entertain the thought
that they had plunged into the mantle of the Earth, bound for its core of
molten iron. Or maybe they were on their way straight to...She tried to imagine
this improbable conveyance as a ferryboat upon the River Styx.
There was a texture to the tunnel walls,
from which she could sense their speed. The patterns were irregular soft-edged
mottlings, nothing with a well-defined form. The walls were not memorable for
their appearance, only for their function. Even a few hundred kilometers
beneath the Earth's surface the rocks would be glowing with red heat. There was
no hint of that. No minor demons were managing the traffic, and no cupboards
with jars of marmalade were in evidence.
Every now and then a forward vertex of
the dodecahedron would brush the wall, and flakes of an unknown material would
be scraped off. The dodec itself seemed unaffected. Soon, quite a cloud of fine
particles was following them. Every time the dodecahedron touched the wall, she
could sense an undulation, as if something soft had retreated to lessen the
impact. The faint yellow lighting was diffuse, uniform. Occasionally the tunnel
would swerve gently, and the dodec would obligingly follow the curvature.
Nothing, so far as she could see, was headed towardthem. At these speeds, even
a collision with a sparrow would produce a devastating explosion. Or what if
this was an endless fall into a bottomless well? She could feel a continuous
physical anxiety in the pit of her stomach. Even so, she entertained no second
thoughts.
Black hole, she thought. Black hole. I'm
falling through the event horizon of a black hole toward the dread singularity.
Or maybe this isn't a black hole and I'm headed toward a naked singularity.
That's what the physicists called it, a naked singularity. Near a singularity,
causality could be violated, effects could precede causes, time could flow
backward, and you were unlikely to survive, much less remember the experience.
For a rotating black hole, she dredged up from her studies years before, there
was not a point but a ring singularity or something still more complex to be
avoided. Black holes were nasty. The gravitational tidal forces were so great
that you would be stretched into a long thin thread if you were so careless as
to fall in. You would also be crushed laterally. Happily, there was no sign of
any of this. Through the gray transparent surfaces that were now the ceiling
and floor, she could see a great flurry of activity. The organosilicate matrix
was collapsing on itself in some places and unfolding in others; the embedded
erbium dowels were spinning and tumbling. Everything inside the
dodec--including herself and her companions-- looked quite ordinary. Well,
maybe a bit excited. But they were not yet long thin threads.
These were idle ruminations, she knew. The physics of black holes
was not her field. Anyway, she could not understand how this could have
anything to do with black holes, which were either primordial--made during the
origin of the universe--or produced in a later epoch by the collapse of a star
more massive than the Sun. Then, the gravity would be so strong that--except
for quantum effects--even light could not escape, although the gravitational
field certainly would remain. Hence "black," hence "hole."
But they hadn't collapsed a star, and she couldn't see any way in which they
had captured a primordial blackhole. Anyway, no one knew where the nearest
primordial black hole might be hiding. They had only built the Machine and spun
up the benzels.
She glanced over to Eda, who was figuring
something on a small computer. By bone conduction, she could feel as well as
hear a low-pitched roaring every time the dodec scraped the wall, and she
raised her voice to be heard. "Do you understand what's going on?"
"Not at all," he shouted back.
"I can almost prove this can't be happening. Do you know the Boyer-
Lindquist coordinates?"
"No, sorry." "I'll explain
it to you later." She was glad he thought there would be a
"later." Ellie felt the deceleration before she could see it, as if
they had been on the downslope of a roller coaster, had leveled out, and now
were slowly climbing. Just before the deceleration set in, the tunnel had made
a complex sequence of bobs and weaves. There was no perceptible change either
in the color or in the brightness of the surrounding light. She picked up her
camera, switched to the long-focal-length lens, and looked as far ahead of her
as she could. She could see only to the next jag in the tortuous path.
Magnified, the texture of the wall seemed intricate, irregular, and, just for a
moment, faintly self-luminous.
The dodecahedron had slowed to a
comparative crawl. No end to the tunnel was in sight. She wondered if they
would make it to wherever they were going. Perhaps the designers had
miscalculated. Maybe the Machine had been built imperfectly, just a little bit
off; perhaps what had seemed on Hokkaido an acceptable technological
imperfection would doom their mission to failure here in...in wherever this
was. Or, glancing at the cloud of fine particles following and occasionally
overtaking them, she thought maybe they had bumped into the walls one time too
often and lost more momentum than had been allowed for in the design. The space
between the dodec and the walls seemed very narrow now. Perhaps they would find
themselves stuck fast in this never-never land and languish until the oxygen
ran out. Could the Vegans have gone to all this trouble and forgotten that we
need to breathe? Hadn't they noticed all those shouting Nazis? Vaygay and Eda
were deep in the arcana of gravitational physics--twistors, renormalization of
ghost propagators, time-like Killing vectors, non-Abelian gauge invariance,
geodesic refocusing, eleven- dimensional Kaluza-Klein treatments of supergravity,
and, of course, Eda's own and quite different superunification. You could tell
at a glance that an explanation was not readily within their grasp. She guessed
that in another few hours the two physicists would make some progress on the
problem. Superunification embraced virtually all scales and aspects of physics
known on Earth. It was hard to believe that this...tunnel was not itself some
hitherto unrealized solution of the Eda Field Equations.
Vaygay asked, "Did anyone see a
naked singularity?"
"I don't know what one looks
like," Devi replied. "I beg your pardon. It probably wouldn't be
naked. Did you sense any causality inversion, anything bizarre--really
crazy--maybe about how you were thinking, anything like scrambled eggs
reassembling themselves into whites and yolks...?"
Devi looked at Vaygay through narrowed
lids. "It's okay," Ellie quickly interjected. Vaygay's a little
excited, she added to herself. `These are genuine questions about black holes.
They only sound crazy."
"No," replied Devi slowly, "except for the question
itself." But then she brightened. "In fact it was a marvelous
ride."
They all agreed. Vaygay was elated.
"This is a very strong version of cosmic censorship," he was saying.
"Singularities are invisible even inside black holes."
"Vaygay is only joking," Eda
added. "Once you're inside the event horizon, there is no way to escape
the black hole singularity."
Despite Ellie's reassurance, Devi was
glancing dubiously at both Vaygay and Eda. Physicists had to invent words and
phrases for concepts far removed from everyday experience. It was their fashion
to avoid pure neologisms and instead to evoke, even if feebly, some analogous
commonplace. The alternative was to name discoveries and equations after one
another. This they did also. But if you didn't know it was physics they were
talking, you might very well worry about them.
She stood up to cross over to Devi, but
at the same moment Xi roused them with a shout. The walls of the tunnel were
undulating, closing in on the dodecahedron, squeezing it forward. A nice rhythm
was being established. Every time the dodec would slow almost to a halt, it was
given another squeeze by the walls. She felt a slight motion sickness rising in
her. In some places it was tough going, the walls working hard, waves of
contraction and expansion rippling down the tunnel. Elsewhere, especially on
the straight-aways, they would fairly skip along.
A great distance away, Ellie made out a
dim point of light, slowly growing in intensity. A blue-white radiance began
flooding the inside of the dodecahedron. She could see it glint off the black
erbium cylinders, now almost stationary. Although the journey seemed to have
taken only ten or fifteen minutes, the contrast between the subdued, restrained
ambient light for most of the trip and the swelling brilliance ahead was
striking. They were rushing toward it, shooting up the tunnel, and then
erupting into what seemed to be ordinary space. Before them was a huge
blue-white sun, disconcertingly close. Ellie knew in an instant it was Vega.
She was reluctant to look at it directly
through the long-focal-length lens; this was foolhardy even for the Sun, a
cooler and dimmer star. But she produced a piece of white paper, moved it so it
was in the focal plane of the long lens and projected a bright image of the
star. She could see two great sunspot groups and a hint, she thought, a shadow,
of some of the material in the ring plane. Putting down the camera, she held
her hand at arm's length, palm outward, to just cover the disk of Vega, and was
rewarded by seeing a brilliant extended corona around the star; it had been
invisible before, washed out in Vega's glare.
Palm still outstretched, she examined the
ring of debris that surrounded the star. The nature of the Vega system had been
the subject of worldwide debate ever since receipt of the prime number Message.
Acting on behalf of the astronomical community of the planet Earth, she hoped
she was not making any serious mistakes. She videotaped at a variety of f/stops
and frame speeds. They had emerged almost in the ring plane, in a debris-free
circumstellar gap. The ring was extremely thin compared with its vast lateral
dimensions. She could make out faint color gradations within the rings, but
none of the individual ring particles. If they were at all like the rings of
Saturn, a particle a few meters across would be a giant. Perhaps the Vegan
rings were composed entirely of specks of dust, clods of rock, shards of ice.
She turned around to look back at where
they had emerged and saw a field of black--a circular blackness, blacker than
velvet, blacker than the night sky. It eclipsed that leeward portion of the
Vega ring system which was otherwise--where not obscured by this somber
apparition--clearly visible. As she peered through the lens more closely, she
thought she could see faint erratic flashes of light from its very center.
Hawking radiation? No, its wavelength would be much too long. Or light from the
planet Earth still rushing down the tube? On the other side of that blackness
was Hokkaido.
Planets. Where were the planets? She
scanned the ring plane with the long-focal-length lens, searching for embedded
planets--or at least for the home of the beings who had broadcast the Message.
In each break in the rings she looked for a shepherding world whose
gravitational influence had cleared the lanes of dust. But she could find
nothing.
"You can't find any planets?"
Xi asked. "Nothing. There's a few big comets in close. I can see the
tails. But nothing that looks like a planet. There must be thousands of
separate rings. As far as I can tell, they're all made of debris. The black
hole seems to have cleared out a big gap in the rings. That's where we are
right now, slowly orbiting Vega. The system is very young--only a few hundred
million years old--and some astronomers thought it was too soon for there to be
planets. But then where did the transmission come from?"
"Maybe this isn't Vega," Vaygay
offered. "Maybe our radio signal comes from Vega, but the tunnel goes to
another star system."
"Maybe, but it's a funny coincidence
that your other star should have roughly the same color temperature as Vega--
look, yon can see it's bluish--and the same kind of debris system. It's true, I
can't check this out from the constellations because of the glare. I'd still
give you ten-to-one odds this is Vega."
"But then where are they?" Devi
asked. Xi, whose eyesight was acute, was staring up--through the organosilicate
matrix, out the transparent pentagonal panels, into the sky far above the ring
plane. He said nothing, and Ellie followed his gaze. There was something there,
all right, gloaming in the sunlight and with a perceptible angular size. She
looked through the long lens. It was some vast irregular polyhedron, each of
its faces covered with...a kind of circle? Disk? Dish? Bowl?
"Here, Qiaomu, look through here.
Tell us what you see."
"Yes, I see. Your counterparts...radio
telescopes. Thousands of them, I suppose, pointing in many directions. It is
not a world. It is only a device."
They took turns using the long lens. She
concealed her impatience to look again. The fundamental nature of a radio
telescope was more or less specified by the physics of radio waves, but she
found herself disappointed that a civilization able to make, or even just use,
black holes for some kind of hyperrelativistic transport would still be using
radio telescopes of recognizable design, no matter how massive the scale. It
seemed backward of the Vegans .. . unimaginative. She understood the advantage
of putting the telescopes in polar orbit around the star, safe except for twice
each revolution from collisions with ring plane debris. But radio telescopes
pointing all over the sky--thousands of them--suggested some comprehensive sky
survey, an Argus in earnest. Innumerable candidate worlds were being watched
for television transmission, military radar, and perhaps other varieties of
early radio transmission unknown on Earth. Did they find such signals often,
she wondered, or was the Earth their first success in a million years of
looking? There was no sign of a welcoming committee. Was a delegation from the
provinces so unremarkable that no one had been assigned even to note their
arrival? When the lens was returned to her she took great care with focus,
f/stop, and exposure time. She wanted a permanent record, to show the National
Science Foundation what really serious radio astronomy was like. She wished
there were a way to determine the size of the polyhedral world. The telescopes
covered it like barnacles on a whaler. A radio telescope in zero g could be
essentially any size. After the pictures were developed, she would be able to
determine the angular size (maybe a few minutes of arc), but the linear size,
the real dimensions, that was impossible to figure out unless you knew how far
away the thing was. Nevertheless she sensed it was vast.
"If there are no worlds here,"
Xi was saying, "then there are no Vegans. No one lives here. Vega is only
a guard-house, a place for the border patrol to warm their hands."
"Those radio telescopes"--he
glanced upward--"are the watchtowers of the Great Wall. If you are limited
by the speed of light, it is difficult to hold a galactic empire together. You
order the garrison to put down a rebellion. Ten thousand years later you find
out what happened. Not good. Too slow. So you give autonomy to the garrison
commanders. Then, no more empire. But those"--and now he gestured at the
receding blot covering the sky behind them--"those are imperial roads.
Persia had them. Rome had them. China had them. Then you are not restricted to
the speed of light. With roads you can hold an empire together."
But Eda, lost in thought, was shaking his
bead. Something about the physics was bothering him.
The black hole, if that was what it
really was, could now be seen orbiting Vega in a broad lane entirely clear of
debris; both inner and outer rings gave it wide berth. It was hard to believe
how black it was.
As she took short video pans of the
debris ring before her, she wondered whether it would someday form its own
planetary system, the particles colliding, sticking, growing ever larger, gravitational
condensations taking place until at last only a few large worlds orbited the
star. It was very like the picture astronomers had of the origin of the planets
around the Sun four and a half billion years ago. She could now make out
inhomogeneities in the rings, places with a discernible bulge where some debris
had apparently accreted together.
The motion of the black hole around Vega
was creating a visible ripple in the bands of debris immediately adjacent The
dodecahedron was doubtless producing some more modest wake. She wondered if
these gravitational perturbations, these spreading rarefactions and
condensations, would have any long-term consequence, changing the pattern of
subsequent planetary formation. If so, then the very existence of some planet
billions of years in the future might be due to the black hole and the
Machine...and therefore to the Message, and therefore to Project Argus. She
knew she was overpersonalizing; had she never lived, some other radio
astronomer would surely have received the Message, but earlier, or later. The
Machine would have been activated at a different moment and the dodec would
have found its way here in some other time. So some future planet in this
system might still owe its existence to her. Then, by symmetry, she had
snatched out of existence some other world that was destined to form had she
never lived. It was vaguely burdensome, being responsible by your innocent
actions for the fates of unknown worlds.
She attempted a panning shot, beginning inside
the dodecahedron, then out to the struts joining the transparent pentagonal
panels, and beyond to the gap in the debris rings in which they, along with the
black hole, were orbiting. She followed the gap, flanked by two bluish rings,
further and further from her. There was something a little odd up ahead, a kind
of bowing in the adjacent inner ring.
"Qiaomu," she said, handing him
the long lens, "look over there. Tell me what you sec."
"Where?"
She pointed again. After a moment he had
found it. She could tell because of his slight but quite unmistakable intake of
breath. "Another black hole," he said. "Much bigger."
They were falling again. This time the
tunnel was more commodious, and they were making better time.
"That's it?" Ellie found
herself shouting at Devi. "They take us to Vega to show off their black
holes. They give us a look at their radio telescopes from a thousand kilometers
away. We spend ten minutes there, and they pop us into another black hole and
ship us back to Earth. That's why we spent two trillion dollars?"
"Maybe we're beside the point,"
Lunacharsky was saying. "Maybe the only real point was to plug themselves
into the Earth."
She imagined nocturnal excavations
beneath the gates of Troy.
Eda, fingers of both hands outspread, was
making a calming gesture. "Wait and see," he said. "This is a
different tunnel. Why should you think it goes back to Earth?"
"Vega's not where we're intended to
go?" Devi asked. "The experimental method. Let's see where we pop out
next." In this tunnel there was less scraping of the walls and fewer
undulations. Eda and Vaygay were debating a space-time diagram they had drawn
in Kruskal-Szekeres coordinates. Ellie had no idea what they were talking
about. The deceleration stage, the part of the passage that felt uphill, was
still disconcerting.
This time the light at the end of the
tunnel was orange. They emerged at a considerable speed into the system of a
contact binary, two suns touching. The outer layers of a swollen elderly red
giant star were pouring onto the photosphere of a vigorous middle-aged yellow
dwarf, something like the Sun. The zone of contact between the two stars was
brilliant. She looked for debris rings or planets or orbiting radio
observatories, but could find none. That doesn't mean very much, she told
herself. These systems could have a fair number of planets and I'd never know
it with this dinky long lens. She projected the double sun onto the piece of paper
and photographed the image with a short-focal-length lens.
Because there were no rings, there was
less scattered light in this system than around Vega; with the wide-angle lens
she was able, after a bit of searching, to recognize a constellation that
sufficiently resembled the Big Dipper. But she had difficulty recognizing the
other constellations. Since the bright stars in the Big Dipper are a few
hundred light-years from Earth, she concluded that they had not jumped more
than a few hundred light-years. She told this to Eda and asked him what he
thought. "What do I think? I think this is an Underground."
"An Underground?"
She recalled her sensation of falling,
into the depths of Hell it had seemed for a moment, just after the Machine had
been activated.
"A Metro. A subway. These are the
stations. The stops. Vega and this system and others. Passengers get on and off
at the stops. You change trains here."
He gestured at the contact binary, and
she noticed that his hand cast two shadows, one anti-yellow and the other
anti-red, like in---it was the only image that came to mind--a discotheque.
"But we, we cannot get off,"
Eda continued. "We are in a closed railway car. We're headed for the
terminal, the end of the line."
Drumlin had called such speculations Fantasyland, and this
was--so far as she knew---the first time Eda had succumbed to the temptation.
Of the Five, she was the only
observational astronomer, even though her specialty was not in the optical
spectrum. She felt it her responsibility to accumulate as much data as
possible, in the tunnels and in the ordinary four-dimensional space-time into
which they would periodically emerge. The presumptive black hole from which
they exited would always be in orbit around some star or multiple-star system.
They were always in pairs, always two of them sharing a similar orbit--one from
which they were ejected, and another into which they fell. No two systems were
closely similar. None was very like the solar system. All provided instructive
astronomical insights. Not one of them exhibited anything like an artifact--a
second dodecahedron, or some vast engineering project to take apart a world and
reassemble it into what Xi had called a device.
At this time they emerged near a star
visibly changing its brightness (she could tell from the progression of f/stops
required)--perhaps it was one of the RR Lyrae stars; next was a quintuple
system; then a feebly luminous brown dwarf. Some were in open space, some were
embedded in nebulosity, surrounded by glowing molecular clouds.
She recalled the warning `This will be
deducted from your share in Paradise." Nothing had been deducted from
hers. Despite a conscious effort to retain a professional calm, her heart
soared at this profusion of suns. She hoped that every one of them was a home
to someone. Or would be one day.
But after the fourth jump she began to
worry. Subjectively, and by her wristwatch, it felt something like an hour
since they had "left" Hokkaido. If this took much longer, the absence
of amenities would be felt. Probably there were aspects of human physiology
that could not be deduced even after attentive television viewing by a very
advanced civilization.
And if the extraterrestrials were so smart,
why were they putting us through so many little jumps? All right, maybe the hop
from Earth used rudimentary equipment because only primitives were working one
side of the tunnel. But after Vega? Why couldn't they jump us directly to
wherever the dodec was going? Each time she came barreling out of a tunnel, she
was expectant. What wonders had they in store for her next? It put her in mind
of a very upscale amusement park, and she found herself imagining Hadden
peering down his telescope at Hokkaido the moment the Machine had been
activated.
As glorious as the vistas offered by the
Message makers were, and however much she enjoyed a kind of proprietary mastery
of the subject as she explained some aspect of stellar evolution to the others,
she was after a time disappointed. She had to work to track the feeling down.
Soon she had it: The extraterrestrials were boasting. It was unseemly. It
betrayed some defect of character.
As they plunged down still another
tunnel, this one broader and more tortuous than the others, Lunacharsky asked
Eda to guess why the subway stops were put in such unpromising star systems.
"Why not around a single star, a young star in good health and with no
debris?"
"Because," Eda replied,
"--of course, I am only guessing as you ask--because all such systems are
inhabited..."
"And they don't want the tourists
scaring the natives," Sukhavati shot back. Eda smiled. "Or the other
way around."
"But that's what you mean, isn't it?
There's some sort of ethic of noninterference with primitive planets. They know
that every now and then some of the primitives might use the subway..."
"And they're pretty sure of the
primitives," Ellie continued the thought, "but they can't be
absolutely sure. After all, primitives are primitive. So you let them ride only
on subways that go to the sticks. The builders must be a very cautious bunch.
But then why did they send us a local train and not an express?"
"Probably it's too hard to build an
express tunnel," said Xi, years of digging experience behind him. Ellie
thought of the Honshu-Hokkaido Tunnel, one of the prides of civil engineering
on Earth, all of fifty-one kilometers long.
A few of the turns were quite steep now.
She thought about her Thunderbird, and then she thought about getting sick. She
decided she would fight it as long as she could. The dodecahedron had not been
equipped with airsickness bags.
Abruptly they were on a straightaway, and
then the sky was full of stars. Everywhere she looked there were stars, not the
paltry scattering of a few thousand still occasionally known to naked-eye
observers on Earth, but a vast multitude--many almost touching their nearest
neighbors it seemed--surrounding her in every direction, many of them tinted
yellow or blue or red, especially red. The sky was blazing with nearby suns.
She could make out an immense spiraling cloud of dust, an accretion disk
apparently flowing into a black hole of staggering proportions, out of which
flashes of radiation were coming like heat lightning on a summer's night. If
this was the center of the Galaxy, as she suspected, it would be bathed in
synchrotron radiation. She hoped the extraterrestrials had remembered how frail
humans were.
And swimming into her field of view as the
dodec rotated was...a prodigy, a wonder, a miracle. They were upon it almost
before they knew it. It filled half the sky. Now they were flying over it. On
its surface were hundreds, perhaps thousands, of illuminated doorways, each a
different shape. Many were polygonal or circular or with an elliptical cross
section, some had projecting appendages or a sequence of partly overlapping
off-center circles. She realized they were docking ports, thousands of
different docking ports-- some perhaps only meters in size, others clearly
kilometers across, or larger. Every one of them, she decided, was the template
of some interstellar machine like this one. Big creatures in serious machines
had imposing entry ports. Little creatures, like us, had tiny ports. It was a
democratic arrangement, with no hint of particularly privileged civilizations.
The diversity of ports suggested few social distinctions among the sundry
civilizations, but it implied a breathtaking diversity of beings and cultures.
Talk about Grand Central Station! she thought.
The vision of a populated Galaxy, of a
universe spilling over with life and intelligence, made her want to cry for
joy.
They were approaching a yellow-lit port
which, Ellie could see, was the exact template of the dodecahedron in which
they were riding. She watched a nearby docking port, where something the size
of the dodecahedron and shaped approximately like a starfish was gently
insinuating itself onto its template. She glanced left and right, up and down,
at the almost imperceptible curvature of this great Station situated at what
she guessed was the center of the Milky Way. What a vindication for the human
species, invited here at last! There's hope for us, she thought. There's hope!
"Well, it isn't Bridgeport."
She said this aloud as the docking maneuver completed itself in
perfect silence.
CHAPTER 20
Grand
Central Station
All things
are artificial, for nature is the art of God.
-THOMAS
BROWNE
"On
Dreams" Religio Media (1642)
Angels need an assumed body, not for
themselves, but on our account.
-THOMAS
AQUINAS
Summa
Theologica, I, 51, 2
The devil hath power To assume a pleasing
shape.
-WILLIAM
SHAKESPEARE
Hamlet,
II, ii, 628
THE
AIRLOCK Was designed to accommodate only one person at a time. When questions
of priority had come up--which nation would be first represented on the planet
of another star--the Five had thrown up their hands in disgust and told the
project managers that this wasn't that kind of mission. They had
conscientiously avoided discussing the issue among themselves.
Both the interior and the exterior doors
of the airlock opened simultaneously. They had given no command. Apparently,
this sector of Grand central was adequately pressurized and oxygenated.
"Well, who wants to go first?" Devi asked. Video camera in hand,
Ellie waited in line to exit, but then decided that the palm frond should be
with her when she set foot on this new world. As she went to retrieve it, she
heard a whoop of delight from outside, probably from Vaygay. Ellie rushed into
the bright sunlight. The threshold of the airlock's exterior doorway was flush
with the sand. Devi was ankle-deep in the water, playfully splashing in Xi's
direction. Eda was smiling broadly.
It was a beach. Waves were lapping on the
sand. The blue sky sported a few lazy cumulus clouds. There was a stand of palm
trees, irregularly spaced a little back from the water's edge. A sun was in the
sky. One sun. A yellow one. Just like ours, she thought. A faint aroma was in
the air; cloves, perhaps, and cinnamon. It could have been a beach on Zanzibar.
So they had voyaged 30,000 light-years to
walk on a beach. Could be worse, she thought. The breeze stirred, and a little
whirlwind of sand was created before her. Was all this just some elaborate
simulation of the Earth, perhaps reconstructed from the data returned by a
routine scouting expedition millions of years earlier? Or had the five of them
undertaken this epic voyage only to improve their knowledge of descriptive
astronomy, and then been unceremoniously dumped into some pleasant corner of
the Earth? When she turned, she discovered that the dodecahedron had
disappeared. They had left the superconducting supercomputer and its reference
library as well as some of the instruments aboard. It worried them for about a
minute. They were safe and they had survived a trip worth writing home about.
Vaygay glanced from the frond she had struggled to bring here to the colony of
palm trees along the beach, and laughed.
"Coals to Newcastle," Devi
commented. But her frond was different. Perhaps they had different species
here. Or maybe the local variety had been produced by an inattentive
manufacturer. She looked out to sea. Irresistibly brought to mind was the image
of the first colonization of the Earth's land, some 400 million years ago.
Wherever this was--the Indian Ocean or the center of the Galaxy--the five of
them had done something unparalleled. The itinerary and destinations were
entirely out of their hands, it was true. But they had crossed the ocean of
interstellar space and begun what surely must be a new age in human history.
She was very proud.
Xi removed his boots and rolled up to his
knees the legs of the tacky insignia-laden jump suit the governments had
decreed they all must wear. He ambled through the gentle surf. Devi stepped
behind a palm tree and emerged sari-clad, her jump suit draped over her arm. It
reminded Ellie of a Dorothy Lamour movie. Eda produced the sort of linen hat
that was his visual trademark throughout the world. Ellie videotaped them in
short jumpy takes. It would look, when they got home, exactly like a home
movie. She joined Xi and Vaygay in the surf. The water seemed almost warm. It
was a pleasant afternoon and, everything considered, a welcome change from the
Hokkaido winter they had left little more than an hour before.
"Everyone has brought something
symbolic," said Vaygay, "except me."
"How do you mean?"
"Sukhavati and Eda bring national
costumes. Xi here has brought a grain of rice." Indeed, Xi was holding the
grain in a plastic bag between thumb and forefinger. "You have your palm
frond," Vaygay continued. "But me, I have brought no symbols, no
mementos from Earth. I'm the only real materialist in the group, and everything
I've brought is in my head."
Ellie had hung her medallion around her
neck, under the jump suit. Now she loosened the collar and pulled out the
pendant. Vaygay noticed, and she gave it to him to read.
"It's Plutarch, I think," he
said after a moment. `Those were brave words the Spartans spoke. But remember,
the Romans won the battle."
From the tone of this admonition, Vaygay
must have thought the medallion a gift from der Heer. She was warmed by his
disapproval of Ken--surely justified by events--and by his steadfast
solicitude. She took his arm. "I would kill for a cigarette," he said
amiably, using his arm to squeeze her hand to his side.
The five of them sat together by a little
tide pool. The breaking of the surf generated a soft white noise that reminded
her of Argus and her years of listening to cosmic static. The Sun was well past
the zenith, over the ocean. A crab scuttled by, sidewise dexterous, its eyes
swiveling on their stalks. With crabs, coconuts, and the limited provisions in
their pockets, they could survive comfortably enough for some time. There were
no footprints on the beach besides their own.
"We think they did almost all the
work." Vaygay was explaining his and Eda's thinking on what the five of
them had experienced. "All the project did was to make the faintest pucker
in space-time, so they would have something to hook their tunnel onto. In all
of that multidimensional geometry, it must be very difficult to detect a tiny
pucker in space-time. Even harder to fit a nozzle onto it."
"What are you saying? They changed
the geometry of space?"
"Yes. We're saying that space is
topologically non-simply connected. It's like--I know Abonnema doesn't like
this analogy--it's like a flat two-dimensional surface, the smart surface,
connected by some maze of tubing with some other flat two-dimensional surface,
the dumb surface. The only way you can get from the smart surface to the dumb
surface in a reasonable time is through the tubes. Now imagine that the people
on the smart surface lower a tube with a nozzle on it. They will make a tunnel
between the two surfaces, provided the dumb ones cooperate by making a little
pucker on their surface, so the nozzle can attach itself."
"So the smart guys send a radio
message and tell the dumb ones how to make a pucker. But if they're truly
two-dimensional beings, how could they make a pucker on their surface?"
"By accumulating a great deal of
mass in one place." Vaygay said this tentatively. "But that's not
what we did."
"I know. I know. Somehow the benzels
did it."
"You see," Eda explained
softly, "if the tunnels are black holes, there are real contradictions
implied. There is an interior tunnel in the exact Kerr solution of the Einstein
Field Equations, but it's unstable. The slightest perturbation would seal it
off and convert the tunnel into a physical singularity through which nothing
can pass. I have tried to imagine a superior civilization that would control
the internal structure of a collapsing star to keep the interior tunnel stable.
This is very difficult. The civilization would have to monitor and stabilize
the tunnel forever. It would be especially difficult with something as large as
the dodecahedron falling through."
"Even if Abonnema can discover how
to keep the tunnel open, there are many other problems," Vaygay said.
"Too many. Black holes collect problems faster than they collect matter.
There are the tidal forces. We should have been torn apart in the black hole's
gravitational field. We should have been stretched like people in the paintings
of El Greco or the sculptures of that Italian...." He turned to Ellie to
fill in the blank.
"Giacometti," she suggested.
"He was Swiss."
"Yes, like Giacometti. Then other
problems: As measured from Earth it takes an infinite amount of time for us to
pass through a black hole, and we could never, never return to Earth. Maybe
this is what happened. Maybe we will never go home. Then, there should be an inferno
of radiation near the singularity. This is a quantum-mechanical instability.
..."
"Ana finally," Eda continued,
"a Kerr-type tunnel can lead to grotesque causality violations. With a
modest change of trajectory inside the tunnel, one could emerge from the other
end as early in the history of the universe as `you might like--a picosecond
after the Big Bang, for example. That would be a very disorderly
universe."
"Look, fellas," she said,
"I'm no expert in General Relativity. But didn't we see black holes?
Didn't we fall into them? Didn't we emerge out of them? Isn't a gram of
observation worth a ton of theory?"
"I know, I know," Vaygay said
in mild agony. "It has to be something else. Our understanding of physics
can't be so far off. Can it?"
He addressed this last question, a little
plaintively, to Eda, who only replied, "A naturally occurring black hole
can't be a tunnel; they have impassable singularities at their centers."
With a jerry-rigged sextant and their
wristwatches, they timed the angular motion of the setting Sun. It was 360
degrees in twenty-four hours. Earth standard. Before the Sun got too low on the
horizon, they disassembled Ellie's camera and used the lens to start a fire.
She kept the frond by her side, fearful that someone would carelessly throw it
on the flames after dark. Xi proved to be an expert fire maker. He positioned
them upwind and kept the fire low.
Gradually the stars came out. They were
all there, the familiar constellations of Earth. She volunteered to stay up
awhile tending the fire while the others slept. She wanted to see Lyra rise.
After some hours, it did. The night was exceptionally clear, and Vega shone
steady and brilliant. From the apparent motion of the constellations across the
sky, from the southern hemisphere constellations that she could make out, and
from the Big Dipper lying near the northern horizon, she deduced that they were
in tropical latitudes. If all this is a simulation, she thought before falling
asleep, they've gone to a great deal of trouble.
She had an odd little dream. The five of
them were swimming--naked, unselfconscious, underwater-- now poised lazily near
a stag horn coral, now gliding into crannies that were the next moment obscured
by drifting seaweed. Once she rose to the surface. A ship in the shape of a
dodecahedron flew by, low above the water. The walls were transparent, and
inside she could see people in dhotis and sarongs, reading newspapers and
casually conversing. She dove back underwater. Where she belonged.
Although the dream seemed to go on for a
long time, none of them had any difficulty breathing. They were inhaling and
exhaling water. They felt no distress--indeed, they were swimming as naturally
as fish. Vaygay even looked a little like a fish--a grouper, perhaps. The water
must be fiercely oxygenated, she supposed. In the midst of the dream, she
remembered a mouse she had once seen in a physiology laboratory, perfectly
content in a flask of oxygenated water, even paddling hopefully with its little
front feet. A vermiform tail streamed behind. She tried to remember how much
oxygen was needed, but it was too much trouble. She was thinking less and less,
she thought. That's all right. Really.
The others were now distinctly fishlike.
Devi's fins were translucent. It was obscurely interesting, vaguely sensual.
She hoped it would continue, so she could figure something out. But even the
question she wanted to answer eluded her. Oh, to breathe warm water, she
thought. What will they think of next? Ellie awoke with a sense of
disorientation so profound it bordered on vertigo. Where was she? Wisconsin,
Puerto Rico, New Mexico, Wyoming, Hokkaido? Or the Strait of Malacca? Then she
remembered. It was unclear, to within 30,000 light-years, where in the Milky
Way Galaxy she was; probably the all-time record for disorientation, she
thought. Despite the headache, Ellie laughed; and Devi, sleeping beside her,
stirred. Because of the upward slope of the beach--they had reconnoitered out
to a kilometer or so the previous afternoon and found not a hint of
habitation--direct sunlight had not yet reached her. Ellie was recumbent on a
pillow of sand. Devi, just awakening, had slept with her head on the rolled-up
jump suit.
"Don't you think there's something
candy-assed about a culture that needs soft pillows?" Ellie asked.
"The ones who put their heads in wooden yokes at night, that's who the
smart money's on." Devi laughed and wished her good morning. They could
hear shouting from farther up the beach. The three men were waving and
beckoning; Ellie and Devi roused themselves and joined them.
Standing upright on the sand was a door.
A wooden door--with paneling and a brass doorknob. Anyway it looked like brass.
The door had black-painted metal hinges and was set in two jambs, a lintel, and
a threshold. No nameplate. it was in no way extraordinary. For Earth. "Now
go `round the back," Xi invited. From the back, the door was not there at
all. She could see Eda and Vaygay and Xi, Devi standing a little apart, and the
sand continuous between the four of them and her. She moved to the side, the
heels of her feet moistened by the surf, and she could make out a single dark
razor-thin vertical line. She was reluctant to touch it. Returning to the back
again, she satisfied herself that there were no shadows or reflections in the
air before her, and then stepped through.
"Bravo." Eda laughed. She
turned around and found the closed door before her. "What did you
see?" she asked. "A lovely woman strolling through a closed door two
centimeters thick."
Vaygay seemed to be doing well, despite
the dearth of cigarettes. "Have you tried opening the door?" she
asked.
"Not yet," Xi replied.
She stepped back again, admiring the
apparition. "It looks like something by-- What's the name of that French
surrealist?" Vaygay asked. "René Magritte," she answered.
"He was Belgian."
"We're agreed, I take it, that this
isn't really the Earth," Devi proposed, her gesture encompassing ocean,
beach, and sky.
"Unless we're in the Persian Gulf
three thousand years ago, and there are djinns about." Ellie laughed.
"Aren't you impressed by the care of the construction?"
"All right," Ellie answered.
"They're very good, I'll grant them that. But what's it for? Why go to the
trouble of all this detail work?"
"Maybe they just have a passion for
getting things right."
"Or maybe they're just showing
off."
"I don't see," Devi continued,
"how they could know our doors so well. Think of how many different ways
there are to make a door. How could they know?"
"It could be television," Ellie
responded. "Vega has received television signals from Earth up to---let's
see--1974 programming. Clearly, they can send the interesting clips here by
special delivery in no time flat. Probably there’s been a lot of doors on
television between 1936 and 1974. Okay," she continued, as if this were
not a change of subject, "what do we think would happen if we opened the
door and walked in?"
"If we are here to be tested,"
said Xi, "on the other side of that door is probably the Test, maybe one
for each of us."
He was ready. She wished she were. The
shadows of the nearest palms were now falling on the beach. Wordlessly they
regarded one another. All four of them seemed eager to open the door and step
through. She alone felt some...reluctance. She asked Eda if he would like to go
first. We might as well put our best foot forward, she thought. He doffed his
cap, made a slight but graceful bow, tinned, and approached the door. Ellie ran
to him and kissed him on both cheeks. The others embraced him also. He turned
again, opened the door, entered, and disappeared into thin air, his striding
foot first, his trailing hand last. With the door ajar, there had seemed to be
only the continuation of beach and surf behind him. The door dosed. She ran
around it, but there was no trace of Eda.
Xi was next. Ellie found herself struck
by how docile they all had been, instantly obliging every anonymous invitation
proffered. They could have told us where they were taking us, and what all this
was for, she thought. It could have been part of the Message, or information
conveyed after the Machine was activated. They could have told us we were
docking with a simulation of a beach on Earth. They could have told us to
expect the door. True, as accomplished as they are, the extraterrestrials might
know English imperfectly, with television as their only tutor. Their knowledge
of Russian, Mandarin, Tamil, and Hausa would be even more rudimentary. But they
had invented the language introduced in the Message primer. Why not use it? To
retain the element of surprise? Vaygay saw her staring at the closed door and
asked if she wished to enter next.
`Thanks, Vaygay. I've been thinking. I
know it's a little crazy. But it just struck me: Why do we have to jump through
every hoop they hold out for us? Suppose we don't do what they ask?"
"Ellie, you are so American. For me,
this is just like home. I'm used to doing what the authorities suggest--
especially when I have no choice." He smiled and turned smartly on his
heel.
"Don't take any crap from the Grand
Duke," she called after him.
High above, a gull squawked. Vaygay had
left the door ajar. There was still only beach beyond. "Are you all
right?" Devi asked her. "I'm okay. Really. I just want a moment to
myself. I'll be along."
"Seriously, I'm asking as a doctor.
Do you feel all right?"
"I woke up with a headache, and I
think I had some very fanciful dreams. I haven't brushed my teeth or had my
black coffee. I wouldn't mind reading the morning paper either. Except for all
that, really I'm fine."
"Well, that sounds all right. For
that matter I have a bit of a headache, too. Take care of yourself, Ellie.
Remember everything, so you'll be able to tell it to me…next time we
meet."
"I will," Ellie promised.
They kissed and wished each other Well.
Devi stepped over the threshold and vanished. The door closed behind her.
Afterward, Ellie thought she had caught a whiff of curry.
She brushed her teeth in salt water. A
certain fastidious streak had always been a part of her nature. She
break-fasted on coconut milk. Carefully she brushed accumulated sand off the
exterior surfaces of the microcamera system and its tiny arsenal of
videocassettes on which she had recorded wonders. She washed the palm frond in
the surf, as she had done the day she found it on Cocoa Beach just before the
launch up to Methuselah.
The morning was already warm and she
decided to take a swim. Her clothes carefully folded on the palm frond, she
strode boldly out into the surf. Whatever else, she thought, the
extraterrestrials are unlikely to find themselves aroused by the sight of a
naked woman, even if she is pretty well preserved. She tried to imagine a
microbiologist stirred to crimes of passion after viewing a paramecium caught
in flagrante delicto in mitosis.
Languidly, she floated on her back,
bobbing up and down, her slow rhythm in phase with the arrival of successive
wave crests. She tried to imagine thousands of comparable...chambers, simulated
worlds, whatever these were--each a meticulous copy of the nicest part of
someone's home planet. Thousands of them, each with sky and weather, ocean,
geology, and indigenous life indistinguishable from the originals. It seemed an
extravagance, although it also suggested that a satisfactory outcome was within
reach. No matter what your resources, you don't manufacture a landscape on this
scale for five specimens from a doomed world.
On the other hand...The idea of
extraterrestrials as zookeepers had become something of a cliché. What if this
sizable Station with its profusion of docking ports and environments was
actually a zoo? "See the exotic animals in their native habitats,"
she imagined some snail-headed barker shouting. Tourists come from all over the
Galaxy, especially during school vacations. And then when there's a test, the
Stationmasters temporarily move the critters and the tourists out, sweep the
beach free of footprints, and give the newly arriving primitives a half day of
rest and recreation before the test ordeal begins.
Or maybe this was how they stocked the
zoos. She thought about the animals locked away in terrestrial zoos who were
said to have experienced difficulties breeding in captivity. Somersaulting in
the water, she dived beneath the surface in a moment of self-consciousness. She
took a few strong strokes in toward the beach, and for the second time in
twenty-four hours wished that she had had a baby.
There was no one about, and not a sail on
the horizon. A few seagulls were stalking the beach, apparently looking for
crabs. She wished she had brought some bread to give them. After she was dry,
she dressed and inspected the doorway again. It was merely waiting. She felt a
continuing reluctance to enter. More than reluctance. Maybe dread.
She withdrew, keeping it in view. Beneath
a palm tree, her knees drawn up under her chin, she looked out over the long
sweep of white sandy beach.
After a while she got up and stretched a
little. Carrying the frond and the microcamera with one hand, she approached
the door and turned the knob. It opened slightly. Through the crack she could
see the whitecaps offshore. She gave it another push, and it swung open without
a squeak. The beach, bland and disinterested, stared back at her. She shook her
head and returned to the tree, resuming her pensive posture.
She wondered about the others. Were they
now in some outlandish testing facility avidly checking away on the
multiple-choice questions? Or was it an oral examination? And who were the
examiners? She felt the uneasiness well up once again. Another intelligent
being--independently evolved on some distant world under unearthly physical
conditions and with an entirely different sequence of random genetic
mutations-- such a being would not resemble anyone she knew. Or even imagined.
If this was a Test station, then there were Stationmasters, and the
Stationmasters would be thoroughly, devastatingly nonhuman. There was something
deep within her that was bothered by insects, snakes, star-nosed moles. She was
someone who felt a little shudder--to speak plainly, a tremor of loathing--
when confronted with even slightly malformed human beings. Cripples, children
with Down syndrome, even the appearance of Parkinsonism evoked in her, against
her clear intellectual resolve, a feeling of disgust, a wish to flee. Generally
she had been able to contain her fear, although she wondered if she had ever
hurt someone because of it. It wasn't something she thought about much; she
would sense her own embarrassment and move on to another topic.
But now she worried that she would be
unable even to confront--much less to win over for the human species-- an
extraterrestrial being. They hadn't thought to screen the Five for that. There
had been no effort to determine whether they were afraid of mice or dwarfs or
Martians. It had simply not occurred to the examining committees. She wondered why
they hadn't thought of it; it seemed an obvious enough point now.
It had been a mistake to send her.
Perhaps when confronted with some serpent-haired galactic Stationmaster, she
would disgrace herself--or far worse, tip the grade given to the human species,
in whatever unfathomable test was being administered, from pass to fail. She
looked with both apprehension and longing at the enigmatic door, its lower
boundary now under water. The tide was coming in.
There was a figure on the beach a few hundred
meters away. At first she thought it was Vaygay, perhaps out of the examining
room early and come to tell her the good news. But whoever it was wasn't
wearing a Machine Project jump suit. Also, it seemed to be someone younger,
more vigorous. She reached for the long lens, and for some reason hesitated.
Standing up, she shielded her eyes from the Sun. Just for a moment, it had
seemed...It was clearly impossible. They would not take such shameless
advantage of her.
But she could not help herself. She was
racing toward him on the hard sand near the water's edge, her hair streaming
behind her. He looked as he had in the most recent picture of him she had seen,
vigorous, happy. He had a day's growth of beard. She flew into his arms,
sobbing.
"Hello, Presh," he said, his
right hand stroking the back of her head.
His voice was right. She instantly
remembered it. And his smell, his gait, his laugh. The way his beard abraded
her cheek. All of it combined to shatter her self-possession. She could feel a
massive atone seal being pried open and the first rays of light entering an
ancient, almost forgotten tomb.
She swallowed and tried to gain control
of herself, but seemingly inexhaustible waves of anguish poured out of her and
she would weep again. He stood there patiently, reassuring her with the same
look she now remembered he had given her from his post at the bottom of the
staircase during her first solo journey down the big steps. More than anything
else she had longed to see him again, but she had suppressed the feeling, been
impatient with it, because it was so clearly impossible to fulfill. She cried
for all the years between herself and him.
In her girlhood and as a young woman she
would dream that be had come to her to tell her that his death had been a
mistake. He was really fine. He would sweep her up into his arms. But she would
pay for those brief respites with poignant reawakenings into a world in which
he no longer was. Still, she had cherished those dreams and willingly paid
their exorbitant tariff when the next morning she was forced to rediscover her
loss and experience the agony again. Those phantom moments were all she had
left of him.
And now here he was--not a dream or a
ghost, but flesh and blood. Or close enough. He had called to her from the
stars, and she had come.
She hugged him with all her might. She
knew it was a trick, a reconstruction, a simulation, but it was flawless. For a
moment she held him by the shoulders at arm's length. He was perfect. It was as
if her father had these many years ago died and gone to Heaven, and finally--by
this unorthodox route--she had managed to rejoin him. She sobbed and embraced
him again.
It took her another minute to compose herself.
If it had been Ken, say, she would have at least toyed with the idea that
another dodecahedron--maybe a repaired Soviet Machine--had made a later relay
from the Earth to the center of the Galaxy. But not for a moment could such a
possibility be entertained for him. His remains were decaying in a cemetery by
a lake.
She wiped her eyes, laughing and crying
at once.
"So, what do I owe this apparition
to--robotics or hypnosis?"
"Am I an artifact or a dream? You
might ask that about anything."
"Even today, not a week goes by when
I don't think that I'd give anything--anything I had--just to spend a few
minutes with my father again."
"Well, here I am," he said
cheerfully, his hands raised, making a half turn so she could be sure that the
back of him was there as well. But he was so young, younger surely than she. He
had been only thirty-six when he died.
Maybe this was their way of calming her
fears. If so, they were very...thoughtful. She guided him back toward her few possessions,
her aim around his waist. He certainly felt substantial enough. If there were
gear trains and integrated circuits underneath his skin, they were well hidden.
"So how are we doing?" she
asked. The question was ambiguous. "I mean--"
"I know. It took you many years from
receipt of the Message to your arrival here."
"Do you grade on speed or
accuracy?"
"Neither."
"You mean we haven't completed the
Test yet?" He did not answer.
"Well, explain it to me." She
said this in some distress. "Some of us have spent years decrypting the
Message and building the Machine. Aren't you going to tell me what it's all
about?"
"You've become a real
scrapper," he said, as if he really were her father, as if he were
comparing his last recollections of her with her present, still incompletely
developed self.
He gave her hair an affectionate tousle.
She remembered that from childhood also. But how could they, 30,000 light-years
from Earth, know her father's affectionate gestures in long-ago and faraway
Wisconsin? Suddenly she knew.
"Dreams," she said. "Last
night, when we were all dreaming, you were inside our heads, right? You drained
everything we know."
"We only made copies. I think
everything that used to be in your head is still there. Take a look. Tell me if
anything's missing." He grinned, and went 0n.
"There was so much your television
programs didn't tell us. Oh, we could figure out your technological level
pretty well, and a lot more about you. But there's so much more to your species
than that, things we couldn't possibly learn indirectly. I recognize you may
feel some breach of privacy-"
"You're joking."
"--but we have so little time."
"You mean the Test is over? We
answered all your questions while we were asleep last night? So? Did we pass or
fail?"
"It isn't like that," he said.
"It isn't like sixth grade." She had been in the sixth grade the year
he died. "Don't think of us as some interstellar sheriff gunning down
outlaw civilizations. Think of us more as the Office of the Galactic Census. We
collect information. I know you think nobody has anything to learn from you
because you're technologically so backward. But there are other merits to a
civilization."
"What merits?"
"Oh, music. Loving kindness. (I like
that word.) Dreams. Humans are very good at dreaming, although you'd never know
it from your television. There are cultures all over the Galaxy that trade
dreams."
"You operate an interstellar
cultural exchange? That's what this is all about? You don't care if some
rapacious, bloodthirsty civilization develops interstellar spaceflight?"
"I said we admire loving
kindness."
"If the Nazis had taken over the
world, our world, and then developed interstellar spaceflight, wouldn't you
have stepped in?"
"You'd be surprised how rarely
something like that happens. In the long run, the aggressive civilizations
destroy themselves, almost always. It's their nature. They can't help it. In
such a case, our job would be to leave them alone. To make sure that no one
bothers them. To let them work out their destiny."
"Then why didn't you leave us alone?
I'm not complaining, mind you. I'm only curious as to how the Office of the
Galactic Census works. The first thing you picked up from us was that Hitler
broadcast. Why did you make contact?"
"The picture, of course, was
alarming. We could tell you were in deep trouble. But the music told us
something else. The Beethoven told us there was hope. Marginal cases are our
specialty. We thought you could use a little help. Really, we can offer only a
little. You understand. There are certain limitations imposed by
causality."
He had crouched down, running his hands
through the water, and was now drying them on his pants.
"Last night, we looked inside you.
All five of you. There's a lot in there: feelings, memories, instincts, learned
behavior, insights, madness, dreams, loves. Love is very important. You're an
interesting mix."
"All that in one night's work?"
She was taunting him a little.
"We had to hurry. We have a pretty
tight schedule."
"Why, is something about to..."
"No, it's just that if we don't
engineer a consistent causality, it'll work itself out on its own. Then it's
almost always worse." She had no idea what he meant. " `Engineer a
consistent causality.' My dad never used to talk like that."
"Certainly he did. Don't you
remember how he spoke to you? He was a well-read man, and from when you were a
little girl he…I…talked to you as an equal. Don't you remember?"
She remembered. She remembered. She
thought of her mother in the nursing home.
"What a nice pendant," he said,
with just that air of fatherly reserve she had always imagined he would have
cultivated had he lived to see her adolescence. "Who gave it to you?"
"Oh this," she said, fingering
the medallion. "Actually it's from somebody I don't know very well. He
tested my faith…He…But you must know all this already." Again the grin.
"I want to know what you think of
us," she said shortly, "what you really think."
He did not hesitate for a moment.
"All right. I think it's amazing that you've done as well as you have.
You've got hardly any theory of social organization, astonishingly backward
economic systems, no grasp of the machinery of historical prediction, and very
little knowledge about yourselves. Considering how fast your world is changing,
it's amazing you haven't blown yourselves to bits by now.
That's why we don't want to write you off
just yet. You humans have a certain talent for adaptability-- at least in the
short term."
"That's the issue, isn't it?"
"That's one issue. You can see that,
after a while, the civilizations with only short-tem perspectives just aren't
around. They work out their destinies also."
She wanted to ask him how he honestly
felt about humans. Curiosity? Compassion? No feelings whatever, just all in a
day's work? In his heart of hearts--or whatever equivalent internal organs he
possessed--did he think of her as she thought of...an ant? But she could not
bring herself to raise the question. She was too much afraid of the answer.
From the intonation of his voice, from
the nuances of his speech, she tried to gain some glimpse of who it was here
disguised as her father. She had an enormous amount of direct experience with
human beings; the Stationmasters had less than a day's. Could she not discern
something of their true nature beneath this amiable and informative facade? But
she couldn't. In the content of his speech he was, of course, not her father,
nor did he pretend to be. But in every other respect he was uncannily close to
Theodore F. Arroway, 1924-1960, vendor of hardware, loving husband and father.
If not for a continuous effort of will, she knew she would be slobbering over
this, this....copy. Part of her kept wanting to ask him how things had been
since he had gone to Heaven. What were his views on Advent and Rapture? Was
anything special in the works for the Millennium? There were human cultures
that taught an afterlife of the blessed on mountaintops or in clouds, in
caverns or oases, but she could not recall any in which if you were very, very
good when you died you went to the beach.
"Do we have time for some questions
before...whatever it is we have to do next?"
"Sure. One or two anyway."
`Tell me about your transportation system."
"I can do better than that," he
said. "I can show you. Steady now."
An amoeba of blackness leaked out from
the zenith, obscuring Sun and blue sky. "That's quite a trick," she
gasped. The same sandy beach was beneath her feet. She dug her toes in.
Overhead...was the Cosmos. They were, it seemed, high above the Milky Way
Galaxy, looking down on its spiral structure and falling toward it at some
impossible speed. He explained matter-of-factly, using her own familiar
scientific language to describe the vast pinwheel-shaped structure. He showed
her the Orion Spiral Arm, JH which the Sun was, in this epoch, embedded.
Interior to it, in decreasing order of mythological significance, were the
Sagittarius Arm, the Norma/Scutum Arm, and the Three Kiloparsec Arm.
A network of straight lines appeared,
representing the transportation system they had used. It was like the
illuminated maps in the Paris Metro. Eda had been right. Each station, she
deduced, was in a star system with a low-mass double black hole. She knew the
black holes couldn't have resulted from stellar collapse, from the normal
evolution of massive star systems, because they were too small. Maybe they were
primordial, left over from the Big Bang, captured by some unimaginable starship
and towed to their designated station. Or maybe they were made from scratch.
She wanted to ask about this, but the tour was pressing breathlessly onward.
There was a disk of glowing hydrogen
rotating about the center of the Galaxy, and within it a ring of molecular
clouds rushing outward toward the periphery of the Milky Way. He showed her the
ordered motions in the giant molecular cloud complex Sagittarius B2, which had
for decades been a favorite hunting ground for complex organic molecules by her
radio-astronomical colleagues on Earth. Closer to the center, they encountered
another giant molecular cloud, and then Sagittarius A West, an intense radio
source that Ellie herself had observed at Argus.
And just adjacent, at the very center of
the Galaxy, locked in a passionate gravitational embrace, was a pair of immense
black holes. The mass of one of them was five million suns. Rivers of gas the
size of solar systems were pouring down its maw. Two colossal--she ruminated on
the limitations of the languages of Earth--two super massive black holes are
orbiting one another at the center of the Galaxy. One had been known, or at
least strongly suspected. But two? Shouldn't that have shown up as a Doppler
displacement of spectral lines? She imagined a sign under one of them reading
ENTRANCE and under the other EXIT. At the moment, the entrance was in use; the
exit was merely there.
And that was where this Station, Grand
Central Station, was-just safely outside the black holes at the center of the
Galaxy. The skies were made brilliant by millions of nearby young stars; but
the stars, the gas, and the dust were being eaten up by the entrance black
hole. "It goes somewhere, right?" she asked. "Of course."
"Can yon tell me where?"
"Sure. All this stuff winds up in
Cygnus A." Cygnus A was something she knew about. Except only for a nearby
supernova remnant in Cassiopeia, it was the brightest radio source in the sides
of Earth. She had calculated that in one second Cygnus A produces more energy
than the Sun does in 40,000 years. The radio source was 600 million light-years
away, far beyond the Milky Way, out in the realm of the galaxies. As with many
extragalactic radio sources, two enormous jets of gas, fleeing apart at almost
the speed of light, were making a complex web of Rankine-Hugoniot shock fronts
with the thin intergalactic gas--and producing in the process a radio beacon
that shone brightly over most of the universe. All the matter in this enormous
structure, 500,000 light-years across, was pouring out of a tiny, almost
inconspicuous point in space exactly midway between the jets. "You're
making Cygnus A?"
She half-remembered a summer's night in
Michigan when she was a girl. She had feared she would fall into the sky.
"Oh, it's not just us. This is a...cooperative project of many galaxies.
That's what we mainly do--engineering. Only....few of us are involved with
emerging civilizations."
At each pause she had felt a kind of
tingling in her head, approximately in the left parietal lobe.
`There are cooperative projects between
galaxies?" she asked. "Lots of galaxies, each with a kind of Central
Administration? With hundreds of billions of stars in each galaxy. And then
those administrations cooperate. To pour millions of suns into
Centaurus...sorry, Cygnus A? The...Forgive me. I'm just staggered by the scale.
Why would you do all this? Whatever for?"
"You mustn't think of the universe
as a wilderness. It hasn't been that for billions of years," he said.
"Think of it more as...cultivated." Again a tingling.
"But what for? What's there to
cultivate?"
"The basic problem is easily stated.
Now don't get scared off by the scale. You're an astronomer, after all. The
problem is that the universe is expanding, and there's not enough matter in it
to stop the expansion. After a while, no new galaxies, no new stars, no new
planets, no newly arisen lifeforms--just the same old crowd. Everything's
getting run-down. It'll be boring. So in Cygnus A we're testing out the
technology to make something new. You might call it an experiment in urban
renewal. It's not our only trial run. Sometime later we might want to close off
a piece of the universe and prevent space from getting more and more empty as
the aeons pass. Increasing the local matter density's the way to do it, of
course. It's good honest work." Like running a hardware store in
Wisconsin. If Cygnus A was 600 million light-years away, then astronomers on
Earth--or anywhere in the Milky Way for that matter--were seeing it as it had
been 600 million years ago. But on Earth 600 million years ago, she knew, there
had hardly been any life even in the oceans big enough to shake a stick at.
They were old. Six hundred million years ago, on a beach like this one...except
no crabs, no gulls, no palm trees. She tried to imagine some microscopic plant
washed ashore, securing a tremulous toehold just above the water line, while
these beings were occupied with experimental galactogenesis and introductory
cosmic engineering.
"You've been pouring matter into
Cygnus A for the last six hundred million years?"
"Well, what you've detected by radio
astronomy was just some of our early feasibility testing. We're much further
along now."
And in due course, in another few hundred
million years she imagined, radio astronomers on Earth--if any--will detect
substantial progress in the reconstruction of the universe around Cygnus A. She
steeled herself for further revelations and vowed she would not let them
intimidate her. There was a hierarchy of beings on a scale she had not
imagined. But the Earth had a place, a significance in that hierarchy; they
would not have gone to all this trouble for nothing.
The blackness rushed back to the zenith
and was consumed; Sun and blue sky returned. The scene was the same: surf,
sand, palms, Magritte door, microcamera, frond, and her...father.
"Those moving interstellar clouds
and rings near the center of the Galaxy--aren't they due to periodic explosions
around here? Isn't it dangerous to locate the Station here?"
"Episodic, not periodic. It only
happens on a small scale, nothing like the sort of thing we're doing in Cygnus
A. And it's manageable. We know when it's coming and we generally just hunker
down. If it's really dangerous, we take the Station somewhere else for a while.
This is all routine, you understand."
"Of course. Routine. You built it
all? The subways, I mean. You and those other...engineers from other
galaxies?"
"Oh no, we haven't built any of
it."
"I've missed something. Help me
understand."
"It seems to be the same everywhere.
In our case, we emerged a long time ago on many different worlds in the Milky
Way. The first of us developed interstellar space-flight, and eventually
chanced on one of the transit stations. Of course, we didn't know what it was.
We weren't even sure it was artificial until the first of us were brave enough
to slide down."
"Who's `we'? You mean the ancestors
of your...race, your species?"
"No, no. We're many species from
many worlds. Eventually we found a large number of subways-- various ages,
various styles of ornamentation, and all abandoned. Most were still in good
working condition. All we did was make some repairs and improvements."
"No other artifacts? No dead cities?
No records of what happened? No subway builders left?" He shook his head.
"No industrialized, abandoned planets?" He repeated the gesture.
"There was a Galaxy-wide
civilization that picked up and left without leaving a trace--except for the
stations?"
"That's more or less right. And it's
the same in other galaxies also. Billions of years ago, they all went
somewhere. We haven't the slightest idea where."
"But where could they go?" He
shook his head for the third time, but now very slowly.
"So then you're not..."
"No, we're just caretakers," he
said. "Maybe someday they'll come back."
"Okay, just one more," she
pleaded, holding her index finger up before her as, probably, had been her
practice at age two. "One more question."
"All right," he answered
tolerantly. "But we only have a few minutes left."
She glanced at the doorway again, and
suppressed a tremor as a small, almost transparent crab sidled by.
"I want to know about your myths,
your religions. What fills you with awe? Or are those who make the numinous
unable to feel it?"
"You make the numinous also. No, I
know what you're asking. Certainly we feel it. You recognize that some of this
is hard for me to communicate to you. But I'll give yon an example of what
you're asking for. I don't say this is it exactly, but it'll give you...."
He paused momentarily and again she felt
a tingle, this time in her left occipital lobe. She entertained the notion that
he was rifling through her neurons. Had he missed something last night? If so,
she was glad. It meant they weren't perfect.
"...flavor of our numinons. It
concerns pi, the ratio of the circumference of a circle to its diameter. You
know it well, of course, and you also know you can never come to the end of pi.
There's no creature in the universe, no matter how smart, who could calculate
pi to the last digit--because there is no last digit, only an infinite number
of digits. Your mathematicians have made an effort to calculate it out to
..."
Again she felt the tingle.
"...none of you seem to know.. ..
Let's say the ten-billionth place. You won't be surprised to hear that other
mathematicians have gone further. Well, eventually--let's say it's in the
ten-to-the-twentieth-power place--something happens. The randomly varying
digits disappear, and for an unbelievably long time there's nothing but ones
and zeros."
Idly, he was tracing a circle out on the
sand with his toe. She paused a heartbeat before replying.
"And the zeros and ones finally stop?
You get back to a random sequence of digits?" Seeing a faint sign of
encouragement from him, she raced on. "And the number of zeros and ones?
Is it a product of prime numbers?"
"Yes, eleven of them."
"You're telling me there's a message
in eleven dimensions hidden deep inside the number pi? Someone in the universe
communicates by...mathematics? But...help me, I'm really having trouble
understanding you. Mathematics isn't arbitrary. I mean pi has to have the same
value everywhere. How can you hide a message inside pi? It's built into the
fabric of the universe."
"Exactly." She stared at him.
"It's even better than that,"
he continued. "Let's assume that only in base-ten arithmetic does the
sequence of zeros and ones show up, although you'd recognize that something
funny's going on in any other arithmetic. Let's also assume that the beings who
first made this discovery had ten fingers. You see how it looks? It's as if pi
has been waiting for billions of years for ten-fingered mathematicians with
fast computers to come along. You see, the Message was kind of addressed to
us."
"But this is just a metaphor, right?
It's not really pi and the ten to the twentieth place? You don't actually have
ten fingers."
"Not really." He smiled at her
again. "Well, for heaven's sake, what does the Message say?" He
paused for a moment, raised an index finger, and then pointed to the door. A
small crowd of people was excitedly pouring out of it.
They were in a jovial mood, as if this
were a long-delayed picnic outing. Eda was accompanying a stunning young woman
in a brightly colored blouse and skirt, her hair neatly covered with the lacy
gele favored by Moslem women in Yorubaland; he was clearly overjoyed to see
her. From photographs he had shown, Ellie recognized her as Eda's wife.
Sukhavati was holding hands with an earnest young man, his eyes large and
soulful; she assumed it was Surindar Ghosh, Devi's long-dead medical-student
husband. Xi was in animated discourse with a small vigorous man of commanding
demeanor, he had drooping wispy mustaches and was garbed in a richly brocaded
and beaded gown. Ellie imagined him personally overseeing the construction of
the funerary model of the Middle Kingdom, shouting instructions to those who poured
the mercury.
Vaygay ushered over a girl of eleven or
twelve, her blond braids bobbing as she walked.
"This is my granddaughter,
Nina...more or less. My Grand Duchess. I should have introduced you before. In
Moscow."
Ellie embraced the girl. She was relieved
that Vaygay had not appeared with Meera, the ecdysiast. Ellie observed his
tenderness toward Nina and decided she liked him more than ever. Over all the
years she had known him, he had kept this secret place within his heart well hidden.
"I have not been a good father to
her mother," he confided. `These days, I hardly see Nina at all."
She looked around her. The Stationmasters
had produced for each of the Five what could only be described as their deepest
loves. Perhaps it was only to ease the barriers of communication with another,
appallingly different species. She was glad none of them were happily chatting
with an exact copy of themselves.
What if you could do this back on Earth?
she wondered. What if, despite all our pretense and disguise, it was necessary
to appear in public with the person we loved most of all? Imagine this a
prerequisite for social discourse on Earth. It would change everything. She
imagined a phalanx of members of one sex surrounding a solitary member of the
other. Or chains of people. Circles. The letters "H" or
"Q." Lazy figure-8s. You could monitor deep affections at a glance,
just by looking at the geometry--a kind of general relativity applied to social
psychology. The practical difficulties of such an arrangement would be
considerable, but no one would be able to lie about love.
The Caretakers were in a polite but
determined hurry. There was not much time to talk. The entrance to the air-lock
of the dodecahedron was now visible, roughly where it had been when they first
arrived. By symmetry, or perhaps because of some interdimensional conservation
law, the Magritte doorway had vanished. They introduced everyone. She felt
silly, in more ways than one, explaining in English to the Emperor Qin who her
father was. But Xi dutifully translated, and they all solemnly shook hands as
if this were their first encounter, perhaps at a suburban barbecue. Eda's wife
was a considerable beauty, and Surindar Ghosh was giving her a more than casual
inspection. Devi did not seem to mind; perhaps she was merely gratified at the
accuracy of the imposture.
"Where did you go when you stepped
through the doorway?" Ellie softly asked her. "Four-sixteen
Maidenhall Way," she answered. Ellie looked at her blankly. "London,
1973. With Surindar." She nodded her head in his direction. "Before
he died." Ellie wondered what she would have found had she crossed that
threshold on the beach. Wisconsin in the late `50s, probably. She hadn't shown
up on schedule, so he had come to find her. He had done that in Wisconsin more
than once.
Eda had also been told about a message
deep inside a transcendental number, but in his story it was not ? or e, the
base of natural logarithms, but a class of numbers she had never heard of. With
an infinity of transcendental numbers, they would never know for sure which
number to examine back on Earth.
"I hungered to stay and work on
it," he told Ellie softly, "and I sensed they needed help--some way
of thinking about the decipherment that hadn't occurred to them. But I think
it's something very personal for them. They don't want to share it with others.
And realistically, I suppose we just aren't smart enough to give them a
hand."
They hadn't decrypted the message in ?? The
Station-masters, the Caretakers, the designers of new galaxies hadn't figured
out a message that had been sitting under their thumbs for a galactic rotation
or two? Was the message that difficult, or were they...? "Time to go
home," her father said gently. It was wrenching. She didn't want to go.
She tried staring at the palm frond. She tried asking more questions.
"How do you mean `go home'? You mean
we're going to emerge somewhere in the solar system? How will we get down to
Earth?"
"You'll see," he answered.
"It'll be interesting." He put his arm around her waist, guiding her
toward the open airlock door.
It was like bedtime. You could be cute,
you could ask bright questions, and maybe they'd let you stay up a little
later. It used to work, at least a little.
"The Earth is linked up now, right?
Both ways. If we can go home, you can come down to us in a jiffy. You know,
that makes me awfully nervous. Why don't you just sever the link? We'll take it
from here."
"Sorry, Presh," he replied, as
if she had already shamelessly prolonged her eight o'clock bedtime. Was he
sorry about bedtime, or about being unready to denozzle the tunnel? "For a
while at least, it'll be open only to inbound traffic," he said. "But
we don't expect to use it."
She liked the isolation of the Earth from
Vega. She preferred a fifty-two-year-long leeway between unacceptable behavior
on Earth and the arrival of a punitive expedition. The black hole link was
uncomfortable. They could arrive almost instantaneously, perhaps only in
Hokkaido, perhaps anywhere on Earth. It was a transition to what Hadden had
called microintervention. No matter what assurances they gave, they would watch
us more closely now. No more dropping in for a casual look-see every few
million years.
She explored her discomfort further.
How....heological...the circumstances had become. Here were beings who live in
the sky, beings enormously knowledgeable and powerful, beings concerned for our
survival, beings with a set of expectations about how we should behave. They
disclaim such a role, but they could clearly visit reward and punishment, life
and death, on the puny inhabitants of Earth. Now how is this different, she
asked herself, from the old-time religion? The answer occurred to her
instantly: It was a matter of evidence. In her videotapes, in the data the
others had acquired, there would be hard evidence of the existence of the
Station, of what went on here, of the blackhole transit system. There would be
five independent, mutually corroborative stories supported by compelling
physical evidence. This one was fact, not hearsay and hocus-pocus.
She turned toward him and dropped the
frond. Wordlessly, he stooped and returned it to her.
"You've been very generous in
answering all my questions. Can I answer any for you?"
"Thanks. You answered all our
questions last night."
"That's it? No commandments? No
instructions for the provincials?"
"It doesn't work that way, Presh.
You're grown up now. You're on your own." He tilted his head, gave her
that grin, and she flew into his arms, her eyes again filling with tears. It
was a long embrace. Eventually, she felt him gently disengage her arms. It was
time to go to bed. She imagined holding up her index finger and asking for
still one more minute. But she did not want to disappoint him. "Bye,
Presh," he said. "Give your mother my love." `Take care,"
she replied in a small voice. She took one last look at the seashore at the
center of the Galaxy. A pair of seabirds, petrels perhaps, were suspended on
some rising column of air. They remained aloft with hardly a beat of their
wings. Just at the entrance to the airlock, she turned and called to him.
"What does your Message say? The one
in pi?"
"We don't know," he replied a little sadly, taking a
few steps toward her. "Maybe it's a kind of statistical accident. We're
still working on it." The breeze stirred up, tousling her hair once again.
"Well, give us a call when you figure it out," she said.
CHAPTER 21
Causality
As flies
to wanton boys are we to the gods-- They kill us for their sport.
-WILLIAM
SHAKESPEARE
King Lear,
IV, i, 36
Who is all-powerful should fear
everything.
-PIERRE
CORNEILLE
Cinna
(1640), Act IV, Scene II
They were
overjoyed to be back. They whooped it up, giddy with excitement. They climbed
over the chairs. They hugged and patted each another on the back. All of them
were close to tears. They had succeeded--but not only that, they had returned,
safely negotiating all the tunnels. Abruptly, amidst a bail of static, the
radio began blaring out the Machine status report. All three benzels were
decelerating. The built-up electrical charge was dissipating. From the
commentary, it was clear that Project had no idea of what had happened.
Ellie wondered how much time had passed.
She glanced at her watch. It had been a day at least, which would bring them
well into the year 2000. Appropriate enough. Oh, wait till they hear what we
have to tell them, she thought. Reassuringly, she patted the compartment where
the dozens of video microcassettes were stored. How the world would change when
these films were released! The space between and around the benzels had been
re-pressurized. The airlock doors were being opened. Now there were radio
inquiries about their well-being.
"We're fine!" she shouted back
into her microphone. "Let us out. You won't believe what happened to
us."
The Five emerged from the airlock happy,
effusively greeting their comrades who had helped build and operate the
Machine. The Japanese technicians saluted them. Project officials surged toward
them.
Devi said quietly to Ellie, "As far
as I can tell, everyone's wearing exactly the same clothing they did yesterday.
Look at that ghastly yellow tie on Peter Valerian."
"Oh, he wears that old thing all the
time," Ellie replied. "His wife gave it to him." The clocks read
15:20. Activation had occurred close to three o'clock the previous afternoon.
So they had been gone just a little over twenty-four...
"What day is it?" she asked.
They looked at her uncomprehendingly. Something was wrong. "Peter, for
heaven's sake, what day is it?"
"How do you mean?" Valerian
answered. "It's today. Friday, December 31, 1999. It's New Year's Eve. Is
that what you mean? Ellie, are you all right?"
Vaygay was telling Archangelsky to let
him begin at the beginning, but only after his cigarettes were produced.
Project officials and representatives of the Machine Consortium were converging
around them. She saw der Heer wedging his way to her through the crowd.
"From your perspective, what
happened?" she asked as finally he came within conversational range.
"Nothing. The vacuum system worked,
the benzels spun up, they accumulated quite an electrical charge, they reached
the prescribed speed, and then everything reversed."
"What do you mean, `everything
reversed'?"
"The benzels slowed down and the charge
dissipated. The system was repressurized, the benzels stopped, and all of you
came out. The whole thing took maybe twenty minutes, and we couldn't talk to
you while the benzels were spinning. Did you experience anything at all?"
She laughed. "Ken, my boy," she
said, "have I got a story for you."
There was a party for project personnel
to celebrate Machine Activation and the momentous New Year. Ellie and her
traveling companions did not attend. The television stations were full of
celebrations, parades, exhibits, retrospectives, prognostications and
optimistic addresses by national leaders. She caught a glimpse of remarks by
the Abbot Utsumi, beatific as ever. But she could not dawdle. Project
Directorate had quickly concluded, from the fragments of their adventures that
the Five had time to recount, that something had gone wrong. They found
themselves hustled away from the milling crowds of government and Consortium
officials for a preliminary interrogation. It was thought prudent, project officials
explained, for each of the Five to be questioned separately. Der Heer and
Valerian conducted her debriefing in a small conference room. There were other
project officials present, including Vaygay's former student Anatoly Goldmann.
She understood that Bobby Bui, who spoke Russian, was sitting in for the
Americans during Vaygay's interrogation.
They listened politely, and Peter was
encouraging now and again. But they had difficulty understanding the sequence
of events. Much of what she related somehow worried them. Her excitement was
noncontagious. It was hard for them to grasp that the dodecahedron had been
gone for twenty minutes, much less a day, because the armada of instruments
exterior to the benzels had filmed and recorded the event, and reported nothing
extraordinary. All that had happened. Valerian explained, was that the benzels
had reached their prescribed speed, several instruments of unknown purpose had
the equivalent of their needles move, the benzels slowed down and stopped, and the
Five emerged in a state of great excitement. He didn't exactly say
"babbling nonsense," but she could sense his concern. They treated
her with deference, but she knew what they were thinking: The only function of
the Machine was in twenty minutes to produce a memorable illusion, or--just
possibly--to drive the Five of them mad.
She played back the video microcassettes
for them, each carefully labeled: "Vega Ring System," for example, or
"Vega Radio (?) Facility,"
"Quintuple System,"
"Galactic Center Starscape,"
and one bearing the inscription "Beach." She inserted them in
"play" mode one after the other. They had nothing on them. The
cassettes were blank. She couldn't understand what had gone wrong. She had carefully
learned the operation of the video microcamera system and had used it
successfully in tests before Machine Activation. She had even done a spot check
on some of the footage after they had left the Vega system. She was further
devastated later when she was told that the instruments carried by the others
had also somehow failed. Peter Valerian wanted to believe her, der Heer also.
But it was hard for them, even with the best will in the world. The story the
Five had come back with was a little, well, unexpected--and entirely unsupported
by physical evidence. Also, there hadn't been enough time. They had been out of
sight for only twenty minutes.
This was not the reception she had
expected. But she was confident it would all sort itself out. For the moment,
she was content to play the experience back in her mind and make some detailed
notes. She wanted to be sure she would forget nothing.
Although a front of extremely cold air
was moving in from Kamchatka, it was still unseasonably warm when late on New
Year's Day, a number of unscheduled flights arrived at Sapporo International
Airport. The new American Secretary of Defense, Michael Kitz, and a team of
hastily gathered experts arrived in an airplane marked "The United States
of America." Their presence was confirmed by Washington only when the
story was about to break in Hokkaido. The terse press release noted that the
visit was routine, that there was no crisis, no danger, and that "nothing
extraordinary has been reported at the Machine Systems Integration Facility
northeast of Sapporo." A Tu-120 had flown overnight from Moscow, carrying,
among others, Stefan Baruda and Timofei Gotsridze. Doubtless neither group was
delighted to spend this New Year's holiday away from their families. But the
weather in Hokkaido was a pleasant surprise; it was so warm that the sculptures
in Sapporo were melting, and the dodecahedron of ice had become an almost
featureless small glacier, the water dripping off rounded surfaces that once
had been the edges of the pentagonal surfaces.
Two days later, a severe winter storm
struck, and all traffic into the Machine facility, even by four- wheel-drive
vehicles, was interrupted. Some radio and all television links were severed;
apparently a microwave relay tower had been blown down. During most of the new
interrogations, the only communication with the outside world was by telephone.
And just conceivably, Ellie thought, by dodecahedron. She was tempted to steal
herself onboard and spin up the benzels. She enjoyed elaborating on this
fantasy. But in fact there was no way to know whether the Machine would ever
work again, at least from this side of the tunnel. He had said it would not.
She allowed herself to think of the seashore again. And him. Whatever happened
next, a wound deep within her was being healed. She could feel the scar tissue
knitting. It had been the most expensive psychotherapy in the history of the
world. And that's saying a lot, she thought.
Debriefings were given to Xi and
Sukhavati by representatives of their nations. Although Nigeria played no
significant role in Message acquisition or Machine construction, Eda acquiesced
readily enough to a long interview with Nigerian officials. But it was
perfunctory compared with the interrogations administered to them by project personnel.
Vaygay and Ellie underwent still more elaborate debriefings by the high-level
teams brought from the Soviet Union and the United States for this specific
purpose. At first these American and Soviet interrogations excluded foreign
nationals, but after complaints were carried through the World Machine
Consortium, the U.S. and the S.U. relented, and the sessions were again
internationalized.
Kitz was in charge of her debriefing, and
considering what short notice he must have been given, he had arrived
surprisingly well prepared. Valerian and der Heer put in an occasional good
word for her, and every now and then asked a searching question. But it was
Kitz's show.
He told her he was approaching her story
skeptically but constructively, in what he hoped was the best scientific
tradition. He trusted she would not mistake the directness of his questions for
some personal animus. He held her only in the greatest respect. He, in turn,
would not permit his judgment to be clouded by the fact that he had been
against the Machine Project from the beginning. She decided to let this
pathetic deception pass unchallenged, and began her story. At first he listened
closely, asked occasional questions of detail, and apologized when he
interrupted. By the second day no such courtesies were in evidence.
"So the Nigerian is visited by his
wife, the Indian by her dead husband, the Russian by his cute granddaughter,
the Chinese by some Mongol warlord--"
"Qin was not a Mongol--"
"--and you, for crissake, you get
visited by your dearly departed father, who tells you that he and his friends
have been busy rebuilding the universe, for crissake. `Our Father Who art in
Heaven...'? This is straight religion. This is straight cultural anthropology.
This is straight Sigmund Freud. Don't you see that? Not only do you claim your
own father came back from the dead, you actually expect us to believe that he
made the universe--"
"You're distorting what--"
"Come off it, Arroway. Don't insult
our intelligence. You don't present us with a shred of evidence, and you expect
us to believe the biggest cock-and-bull story of all time? You know better than
that. You're a smart lady. How could you figure to get away with it?"
She protested. Valerian protested also;
this kind of interrogation, he said, was a waste of time. The Machine was
undergoing sensitive physical tests at this moment. That was how the validity
of her story could be checked. Kitz agreed the physical evidence would be
important. But the nature of Arroway’s story, he argued, was revealing, a means
of understanding what had actually happened.
"Meeting your father in Heaven and
all that, Dr. Arroway, is telling, because you've been raised in the
Judeo-Christian culture. You're essentially the only one of the Five from that
culture, and you're the only one who meets your father. Your story is just too
pat. It's not imaginative enough."
This was worse than she had thought
possible. She felt a moment of epistemological panic--as when your car is not
where you parked it, or the door you locked last night ajar in the morning.
"You think we made all this up?"
"Well, I'll tell you. Dr. Arroway.
When I was very young, I worked in the Cook County Prosecutor's office. When
they were thinking about indicting somebody, they asked three questions."
He ticked them off on his fingers. "Did he have the opportunity? Did he
have the means? Did he have the motive?"
"To do what?" He looked at her
in disgust.
"But our watches showed that we'd
been gone more than a day," she protested.
"I don't know how I could have been
so stupid," Kitz said, striking his forehead with his palm. "You've
demolished my argument. I forgot that it's impossible to set your watch ahead
by a day."
"But that implies a conspiracy. You
think Xi lied? You think Eda lied? You--"
"What I think is we should move on
to something more important. You know, Peter"--Kitz turned toward
Valerian--"I'm persuaded you're right. A first draft of the Materials Assessment
Report will be here tomorrow morning. Let's not waste more time on...stories.
We'll adjourn till then."
Der Heer had said not a word through the
entire afternoon's session. He offered her an uncertain grin, and she couldn't
help contrasting it with her father's. Sometimes Ken's expression seemed to
urge her, to implore her. But to what end she had no way of knowing; perhaps to
change her story. He had remembered her recollections of her childhood, and he
knew how she had grieved for her father. Clearly he was weighing the
possibility that she had gone crazy. By extension, she supposed, he was also
considering the likelihood that the others had gone crazy, too. Mass hysteria.
Shared delusion. Folie à cinq. "Well, here it is," Kitz said. The report
was about a centimeter thick. He let it fall to the table, scattering a few
pencils. "You'll want to look through it, Dr. Arroway, but I can give you
a quick summary. Okay?"
She nodded assent. She had heard through
the grapevine that the report was highly favorable to the account the Five had
given. She hoped it would put an end to the nonsense.
"The dodecahedron
apparently"--he laid great stress on this word--"has been exposed to
a very different environment than the benzels and the supporting structures.
It's apparently been subjected to huge tensile and compressional stresses. It's
a miracle the thing didn't fall to pieces. So it's a miracle you and the others
didn't fall to pieces at the same time. Also, it's apparently seen an intense radiation
environment-- there's low-level induced radioactivity, cosmic ray tracks, and
so on. It's another miracle that you survived the radiation. Nothing else has
been added or taken away. There's no sign of erosion or scraping on the side
vertices that you claim kept bumping into the walls of the tunnels. There's not
even any scoring, as there would have been if it entered the Earth's atmosphere
at high velocity."
"So doesn't that confirm our story?
Michael, think about it. Tensile and compressional stresses--tidal forces--are
exactly what you expect if you fall down a classical black hole. That's been
known for fifty years at least. I don't know why we didn't feel it, but maybe
the dodec protected us somehow. And high radiation doses from the inside of the
black hole and from the environment of the Galactic Center, a known gamma ray
source. There's independent evidence for black holes, and there's independent
evidence for a Galactic Center. We didn't make those things up. I don't
understand the absence of scraping, but that depends on the interaction of a
material we've hardly studied with a material that's completely unknown. I
wouldn't expect any scoring or charring, because we don't claim we entered
through the Earth's atmosphere. It seems to me the evidence almost entirely
confirms our story. What's the problem?"
"The problem is you people are too
clever. Too clever. Look at it from the point of view of a skeptic. Step back
and look at the big picture. There's a bunch of bright people in different
countries who think the world is going to hell in a hand basket. They claim to
receive a complex Message from space."
"Claim?"
"Let me continue. They decrypt the
Message and announce instructions on how to build a very complicated Machine at
a cost of trillions of dollars. The world's in a funny condition, the religions
are all shaky about the oncoming Millennium, and to everybody's surprise the
Machine gets built. There's one or two slight changes in personnel, and then
essentially these same people--"
"It's not the same people. It's not
Sukhavati, it's not Eda, it's not Xi, and there were--"
"Let me continue. Essentially these
same people then get to sit down in the Machine. Because of the way the thing
is designed, no one can see them and no one can talk to them after the thing is
activated. So the Machine is turned on and then it turns itself off. Once it's
on, you can't make it stop in less than twenty minutes. Okay. Twenty minutes
later, these same people emerge from the Machine, all jaunty-jolly, with some
bullshit story about traveling faster than light inside black holes to the
center of the Galaxy and back. Now suppose you hear this story and you're just
ordinarily cautious. You ask to see their evidence. Pictures, videotapes, any
other data. Guess what? It's all been conveniently erased. Do they have
artifacts of the superior civilization they say is at the center of the Galaxy?
No. Mementos? No. A stone tablet? No. Pets? No. Nothing. The only physical
evidence is some subtle damage done to the Machine. So you ask yourself,
couldn't people who were so motivated and so clever arrange for what looks like
tension stresses and radiation damage, especially if they could spend two
trillion dollars faking the evidence?"
She gasped. She remembered the last time
she had gasped. This was a truly venomous reconstruction of events. She
wondered what had made it attractive to Kitz. He must, she thought, be in real
distress. "I don't think anybody's going to believe your story," he
continued. "This is the most elaborate--and the most expensive--hoax ever
perpetrated. You and your friends tried to hoodwink the President of the United
States and deceive the American people, to say nothing of all the other
governments on the Earth. You must really think everybody else is stupid."
"Michael, this is madness. Tens of
thousands of people worked to acquire the Message, to decode it, and to build
the Machine. The Message is on magnetic tapes and printouts and laserdisks in
observatories all over the world. You think there's a conspiracy involving all
the radio astronomers on the planet, and the aerospace and cybernetics
companies, and--"
"No, you don't need a conspiracy
that big. All you need is a transmitter in space that looks as if it's
broadcasting from Vega. I'll tell you how I think you did it. You prepare the
Message, and get somebody-- somebody with an established launch capability--to
put it up. Probably as an incidental part of some other mission. And into some
orbit that looks like sidereal motion. Maybe there's more than one satellite.
Then the transmitter turns on, and you're all ready in your handy-dandy
observatory to receive the Message, make the big discovery, and tell us poor
slobs what it all means."
This was too much even for the impassive
der Heer. He roused himself from a slumped position in his chair. "Really,
Mike--" he began, but Ellie cut him short.
"I wasn't responsible for most of
the decoding. Lots of people were involved. Drumlin, especially. He started out
as a committed skeptic, as you know. But once the data came in, Dave was
entirely convinced. You didn't hear any reservations from him."
"Oh yes, poor Dave Drumlin. The late
Dave Drumlin. You set him up. The professor you never liked."
Der Heer slumped still further down in
his chair, and she had a sudden vision of him regaling Kitz with secondhand
pillow talk. She looked at him more closely. She couldn't be sure. "During
the decrypting of the Message, you couldn't do everything. There was so much
you had to do. So you overlooked this and you forgot that. Here's Drumlin
growing old, worried about his former student eclipsing him and getting all the
credit. Suddenly he sees how to be involved, how to play a central role. You
appealed to his narcissism, and you hooked him. And if he hadn't figured out
the decryption, you would have helped him along. If worse came to worst, you
would have peeled all the layers off the onion yourself."
"You're saying that we were able to
invent such a Message. Really, it's an outrageous compliment to Vaygay and me.
It's also impossible. It can't be done. You ask any competent engineer if that
kind of Machine--with brand-new subsidiary industries, components wholly
unfamiliar on Earth--you ask if that could have been invented by a few
physicists and radio astronomers on their days off. When do you imagine we had
time to invent such a Message even if we knew how? Look how many bits of
information are in it. It would have taken years."
"You had years, while Argus was
getting nowhere. The project was about to be closed. Drumlin, you remember, was
pushing that. So just at the right moment you find the Message. Then there's no
more talk about closing down your pet project. I think you and that Russian did
cook the whole thing up in your spare time. You had years."
"This is madness," she said
softly. Valerian interrupted. He had known Dr. Arroway well during the period
in question. She had done productive scientific work. She never had the time required
for so elaborate a deception. Much as he admired her, he agreed that the
Message and the Machine were far beyond her ability--or indeed anybody's
ability. Anybody on Earth.
But Kitz wasn't buying it "That's a
personal judgment, Dr. Valerian. There are many persons, and there can be many
judgments. You're fond of Dr. Arroway. I understand. I’m fond of her, too. It's
understandable you would defend her. I don't take it amiss. But there's a
clincher. You don't know about it yet. I'm going to tell you." He leaned
forward, watching Ellie intently. Clearly he was interested to see how she
would respond to what he was about to say.
"The Message stopped the moment we
activated the Machine. The moment the benzels reached cruising speed. To the second.
All over the world. Every radio observatory with a line-of-sight to Vega saw
the same thing. We've held back telling you about it so we wouldn't distract
you from your debriefing. The Message stopped in mid-bit. Now that was really
foolish of you."
"I don't know anything about it,
Michael. But so what if the Message stopped? It's fulfilled its purpose. We
built the Machine, and we went to...where they wanted us to go."
"It puts you in a peculiar
position," he went on. Suddenly she saw where he was headed. She hadn't
expected this. He was arguing conspiracy, but she was contemplating madness. If
Kitz wasn't mad, might she be? If our technology can manufacture substances
that induce delusions, could a much more advanced technology induce highly
detailed collective hallucinations? Just for a moment it seemed possible.
"Let's imagine it's last week,"
he was saying. `The radio waves arriving on Earth right now are supposed to
have been sent from Vega twenty-six years ago. They take twenty-six years to
cross space to us. But twenty-six years ago, Dr. Arroway, there wasn't any
Argus facility, and you were sleeping with acid- heads, and moaning about
Vietnam and Watergate. You people are so smart, but you forgot the speed of
light. There's no way that activating the Machine can turn the Message off
until twenty-six years pass-- unless in ordinary space you can send a message
faster than light. And we both know that's impossible. I remember you
complaining about how stupid Rankin and Joss were for not knowing you can't
travel faster than light. I'm surprised you thought you could get away with
this one."
"Michael, listen. It's how we were
able to get from here to there and back in no time flat. Twenty minutes,
anyway. It can be acausal around a singularity. I'm not an expert on this. You
should be talking to Eda or Vaygay."
"Thank you for the suggestion,"
he said. "We already have."
She imagined Vaygay under some comparably
stem interrogation by his old adversary Archangelsky or by Baruda, the man who
had proposed destroying the radio telescopes and burning the data. Probably
they and Kitz saw eye to eye on the awkward matter before them. She hoped
Vaygay was bearing up all right.
"You understand, Dr. Arroway. I'm sure
you do. But let me explain again. Perhaps you can show me where I missed
something. Twenty-six years ago those radio waves were heading out for Earth.
Now imagine them in space between Vega and here. Nobody can catch the radio
waves after they've left Vega. Nobody can stop them. Even if the transmitter
knew instantaneously--through the black hole, if you like-- that the Machine
had been activated, it would be twenty-six years before the signal stops
arriving on Earth. Your Vegans couldn't have known twenty-six years ago when
the Machine was going to be activated. And to the minute. You would have to
send a message back in time to twenty-six years ago, for the Message to stop on
December thirty-first, 1999. You do follow, don't you?"
"Yes, I follow. This is wholly
unexplored territory. You know, it's not called a space-time continuum for
nothing. If they can make tunnels through space, I suppose they can make some
kind of tunnels through time. The fact that we got back a day early shows that
they have at least a limited kind of time travel. So maybe as soon as we left
the Station, they sent a message twenty-six years back into time to turn the
transmission off. I don't know."
"You see how convenient it is for
you that the Message stops just now. If it was still broadcasting, we could
find your little satellite, capture it, and bring back the transmission tape.
That would be definitive evidence of a hoax. Unambiguous. But you couldn't risk
that. So you're reduced to black hole mumbo- jumbo. Probably embarrassing for
you." He looked concerned.
It was like some paranoid fantasy in
which a patchwork of innocent facts are reassembled into an intricate
conspiracy. The facts in this case were hardly commonplace, and it made sense
for the authorities to test other possible explanations. But Kitz's rendition
of events was so malign that it revealed, she thought, someone truly wounded,
afraid, in pain. In her mind, the likelihood that all this was a collective
delusion diminished a little. But the cessation of the Message transmission--if
it had happened as Kitz had said--was worrisome.
"Now, I tell myself, Dr. Arroway,
you scientists had the brains to figure all this out, and the motivation. But
by yourselves you didn't have the means. If it wasn't the Russians who put up
this satellite for you, it could have been any one of half a dozen other
national launch authorities. But we've looked into all that. Nobody launched a
free-flying satellite in the appropriate orbits. That leaves private launch capability.
And the most interesting possibility that's come to our notice is a Mr. S. R.
Hadden. Know him?"
"Don't be ridiculous, Michael. I
talked to you about Hadden before I went up to Methuselah."
"Just wanted to be sure we agree on
the basics. Try this on for size: You and the Russian concoct this scheme. You
get Hadden to bankroll the early stages--the satellite design, the invention of
the Machine, the encrypting of the Message, faking the radiation damage, all
that. In return, after the Machine Project gets going, he gets to play with
some of that two trillion dollars. He likes the idea. There might be enormous
profit in it, and from his history, he'd love to embarrass the government. When
you get stuck in decrypting the Message, when you can't find the primer, you
even go to him. He tells you where to look for it. That was also careless. It
would have been better if you figured it out yourself."
"It's too careless," offered
der Heer. "Wouldn't someone who was really perpetrating a hoax..."
"Ken, I'm surprised at you. You've
been very credulous, you know? You're demonstrating exactly why Arroway and the
others thought it would be clever to ask Hadden's advice. And to make sure we
knew she'd gone to see him."
He returned his attention to her.
"Dr. Arroway, try to look at it from the standpoint of a neutral
observer..."
Kitz pressed on, making sparkling new
patterns of facts assemble themselves in the air before her, rewriting whole
years of her life. She hadn't thought Kitz dumb, but she hadn't imagined him
this inventive either. Perhaps he had received help. But the emotional
propulsion for this fantasy came from Kitz.
He was full of expansive gestures and
rhetorical flourishes. This was not merely part of his job. This interrogation,
this alternative interpretation of events, had roused something passionate in
him. After a moment she thought she saw what it was. The Five had come back
with no immediate military applications, no political liquid capital, but only
a story that was surpassing strange. And that story had certain implications.
Kitz was now master of the most devastating arsenal on Earth, while the
Caretakers were building galaxies. He was a lineal descendant of a progression
of leaders, American and Soviet, who had devised the strategy of nuclear
confrontation, while the Caretakers were an amalgam of diverse species from
separate worlds working together in concert. Their very existence was an
unspoken rebuke. Then consider the possibility that the tunnel could be
activated from the other end, that there might be nothing he could do to
prevent it. They could be here in an instant. How could Kitz defend the United
States under such circumstances? His role in the decision to build the
Machine--the history of which he seemed to be actively rewriting--could be
interpreted by an unfriendly tribunal as dereliction of duty. And what account
could Kitz give the extraterrestrials of his stewardship of the planet, he and
his predecessors? Even if no avenging angels came storming out of the tunnel,
if the truth of the journey got out the world would change. It was already
changing. It would change much more.
Again she regarded him with sympathy. For
a hundred generations, at least, the world had been run by people much worse
than he. It was his misfortune to come to bat just as the rules of the game
were being rewritten.
"...even if you believed every
detail of your story," he was saying, "don't you think the
extraterrestrials treated you badly? They take advantage of your tenderest
feelings by dressing themselves up as dear old Dad. They don't tell you what
they're doing, they expose all your film, destroy all your data, and don't even
let you leave that stupid palm frond up there. Nothing on the manifest is
missing, except for a little food, and nothing that isn't on the manifest is
returned, except for a little sand. So in twenty minutes you gobbled some food
and dumped a little sand out of your pockets. You come back one nanosecond or
something after you leave, so to any neutral observer you never left at all.
"Now, if the extraterrestrials
wanted to make it unambiguously clear you'd really gone somewhere, they
would've brought you back a day later, or a week. Right? If there was nothing
inside the benzels for a while, we'd be dead certain that you'd gone somewhere.
If they wanted to make it easy for you, they wouldn't have turned off the
Message. Right? That makes it look bad, you know. They could've figured that
out. Why would they want to make it bad for you? And there's other ways they
could've supported your story. They could've given you something to remember
them by. They could've let you bring back your movies. Then nobody could claim
all this is just a clever fake. So how come they didn't do that? How come the
extraterrestrials don't confirm your story? You spent years of your life trying
to find them. Don't they appreciate what you've done?
"Ellie, how can you be so sure your
story really happened? If, as you claim, all this isn't a hoax, couldn't it be
a...delusion? It's painful to consider, I know. Nobody wants to think they've
gone a little crazy. Considering the strain you've been under, though, it's no
big deal. And if the only alternative is criminal conspiracy...Maybe you want to
carefully think this one through." She had already done so.
Later that day she met with Kitz alone. A
bargain had in effect been proposed. She had no intention of going along with
it. But Kitz was prepared for that possibility as well.
"You never liked me from the
first," he said. "But I'm going to rise above that. We're going to do
something really fair.
"We've already issued a news release
saying that the Machine just didn't work when we tried to activate it.
Naturally, we're trying to understand what went wrong. With all the other
failures, in Wyoming and Uzbekistan, nobody is doubting this one.
"Then in a few weeks we'll announce
that we're still not getting anywhere. We've done the best we could. The
Machine is too expensive to keep working on. Probably we're just not smart
enough to figure it out yet. Also, there's still some danger, after all. We
always knew that. The Machine might blow up or something. So all in all, it's
best to put the Machine Project on ice--at least for a while. It's not that we
didn't try.
"Hadden and his friends would oppose
it, of course, but as he's been taken from us..."
"He's only three hundred kilometers
overhead," she pointed out.
"Oh, haven't you heard? Sol died
just around the time the Machine was activated. Funny how it happened. Sorry, I
should have told you. I forgot you were...close to him."
She did not know whether to believe Kitz.
Hadden was in his fifties and had certainly seemed in good physical health. She
would pursue this topic later. "And what, in your fantasy, becomes of
us?" she asked. "Us? Who's `us'?"
"Us. The five of us. The ones who
went aboard the Machine that you claim never worked."
"Oh. After a little more debriefing
you'll be free to leave. I don't think any of you will be foolish enough to
tell this cock-and-bull story on the outside. But just to be safe, we're
preparing some psychiatric dossiers on the five of you. Profiles. Low-key.
You've always been a little rebellious, mad at the system--whichever system you
grew up in. It's okay. It's good for people to be independent. We encourage
that, especially in scientists. But the strain of the last few years has been
trying--not actually disabling, but trying. Especially for Doctors Arroway and
Lunacharsky. First they're involved in finding the Message, decrypting it, and
convincing the governments to build the Machine. Then problems in construction,
industrial sabotage, sitting through an Activation that goes nowhere...It's
been tough. All work and no play. And scientists are highly strung anyway. If
you've all become a little unhinged at the failure of the Machine, everybody
will be sympathetic. Understanding. But nobody'll believe your story. Nobody.
If you behave yourselves, there's no reason that the dossiers ever have to be
released.
"It'll be clear that the Machine is
still here. We're having a few wire service photographers in to photograph it
as soon as the roads are open. We'll show them the Machine didn't go anywhere.
And the crew? The crew is naturally disappointed. Maybe a little disheartened.
They don't want to talk to the press just yet.
"Don't you think it's a neat
plan?" He smiled. He wanted her to acknowledge the beauty of the scheme.
She said nothing.
"Don't you think we're being very
reasonable, after spending two trillion dollars on that pile of shit? We could
put you away for life, Arroway. But we're letting you go free. You don't even
have to put up bail. I think we're behaving like gentlemen. It's the Spirit of
the Millennium. It's Machindo."
CHAPTER 22
Gilgamesh
That it
will never come again Is what makes life so sweet.
-EMILY DICKINSON
Poem
Number 1741
In this time--heralded
expansively as the Dawn of a New Age--burial in space was an expensive
commonplace. Commercially available and a competitive business, it appealed
especially to those who, in former times, would have requested that their
remains be scattered over the county of their birth, or at least the mill town
from which they had extracted their first fortune. But now you could arrange
for your remains to circumnavigate the Earth forever--or as close to forever as
matters in the workaday world. You need only insert a short codicil in your
will. Then--assuming, of course, that you have the wherewithal--when you die
and are cremated, your ashes are compressed into a tiny almost toy like bier,
on which is embossed your name and your dates, a short memorial verse, and the
religious symbol of your choice (choose one of three). Along with hundreds of
similar miniature coffins, it is then boosted up and dumped out at an
intermediate altitude, expeditiously avoiding both the crowded corridors of
geosynchronous orbit and the disconcerting atmospheric drag of low-Earth orbit.
Instead, your ashes triumphantly circle the planet of your birth in the midst
of the Van Allen I radiation belts, a proton blizzard where no satellite in its
right mind would risk going to in the first place. But ashes do not mind.
At these heights, the Earth had become
enveloped in the remains of its leading citizens, and an uninstructed visitor
from a distant world might rightly believe he had chanced upon some somber
space-age necropolis. The hazardous location of this mortuary would explain the
absence of memorial visits from grieving relatives.
S. R. Hadden, contemplating this image,
had been appalled at what minor portions of immortality these deceased worthies
had been willing to settle for. All their organic parts--brains, hearts,
everything that distinguished them as a person--were atomized in their
cremations. There isn't any of you left after cremation, he thought, just
powdered bone, hardly enough even for a very advanced civilization to
reconstruct you from the remains. And then, for good measure, your coffin is
placed smack in the Van Alien belts, where even your ashes get slowly fried.
How much better if a few of your cells
could be preserved. Real living cells, with the DNA intact. He visualized a
corporation that would, for a healthy fee, freeze a little of your epithelial
tissue and orbit it high--well above the Van Alien belts, maybe even higher
than geosynchronous orbit. No reason to die first. Do it now, while it's on
your mind. Then, at least, alien molecular biologists--or their terrestrial
counterparts of the far future-- could reconstruct you, clone you, more or less
from scratch. You would rub your eyes, stretch, and wake up in the year ten
million. Or even if nothing was done with your remains, there would still be in
existence multiple copies of your genetic instructions. You would be alive in
principle. In either case it could be said that you would live forever.
But as Hadden ruminated on the matter
further, this scheme also seemed too modest. Because that wasn't really you, a
few cells scraped off the soles of your feet. At best they could reconstruct
your physical form. But that's not the same as you. If you were really serious,
you should include family photographs, a punctiliously detailed autobiography,
all the books and tapes you've enjoyed, and as much else about yourself as
possible. Favorite brands of after-shave lotion, for example, or diet cola. It
was supremely egotistical, he knew, and he loved it. After all, the age had
produced a sustained eschatological delirium. It was natural to think of your
own end as everyone else was contemplating the demise of the species, or the
planet, or the massed celestial ascent of the Elect.
You couldn't expect the extraterrestrials
to know English. If they're to reconstruct you, they'd have to know your
language. So you must include a kind of translation, a problem Hadden enjoyed.
It was almost the obverse of the Message decryption problem.
All of this required a substantial space
capsule, so substantial that you need no longer be limited to mere tissue
samples. You might as well send your body whole. If you could quick-freeze
yourself after death, so to say, there was a subsidiary advantage. Maybe enough
of you would be in working order that whoever found you could do better than
just reconstructing you. Maybe they could bring you back to life--of course,
after fixing whatever it was that you had died of. If you languished a little
before freezing, though-- because, say, the relatives had not realized you were
dead yet--prospects for revival diminished. What would really make sense, he
thought, was to freeze someone just before death. That would make eventual
resuscitation much more likely, although there was probably limited demand for
this service.
But then why just before dying? Suppose
you knew you had only a year or two to live. Wouldn't it be better to be frozen
immediately, Hadden mused--before the meat goes bad? Even then--he sighed--no
matter what the nature of the deteriorating illness, it might still be
irremediable after you were revived; you would be frozen for a geological age,
and then awakened only to die promptly from a melanoma or a cardiac infarction
about which the extraterrestrials might know nothing.
No, he concluded, there was only one
perfect realization of this idea: Someone in robust health would have to be
launched on a one-way journey to the stars. As an incidental benefit, you would
be spared the humiliation of disease and old age. Far from the inner solar
system, your equilibrium temperature would fall to only a few degrees above
absolute zero. No further refrigeration would be necessary. Perpetual care
provided. Free.
By this logic he came to the final step
of the argument: If it requires a few years to get to the interstellar cold,
you might as well stay awake for the show, and get quick-frozen only when you
leave the solar system. It would also minimize over dependence on the
cryogenics.
Hadden had taken every reasonable
precaution against an unexpected medical problem in Earth orbit, the official
account went, even to preemptive sonic disintegration of his gall and kidney
stones before he ever set foot in his chateau in the sky. And then he went and
died of anaphylactic shock. A bee had buzzed angrily out of a bouquet of
freesias sent up on Narnia by an admirer. Carelessly, Methuselah's capacious
pharmacy had not stocked the appropriate antiserum. The insect had probably
been immobilized by the low temperatures in Narnia's cargo bay and was not
really to blame. Its small and broken body had been sent down for examination
by forensic entomologists. The irony of the billionaire felled by a bee did not
escape the notice of newspaper editorials and Sunday sermons.
But in fact, this was all a deception.
There had been no bee, no sting, and no death. Hadden remained in excellent
health. Instead, on the stroke of the New Year, nine hours after the Machine
had been activated, the rocket engines flamed on a sizable auxiliary vehicle
docked to Methuselah. It rapidly achieved escape velocity from the Earth-Moon
system. He called it Gilgamesh.
Hadden had spent his life amassing power
and contemplating time. The more power you have, he found, the more you crave.
Power and time were connected, because all men are equal in death. That is why
the ancient kings built monuments to themselves. But the monuments become
eroded, the royal accomplishments obliterated, the very names of the kings
forgotten. And, most important, they themselves were dead as doornails. No,
this was more elegant, more beautiful, more satisfying. He had found a low door
in the wall of time.
Had he merely announced his plans to the
world, certain complications would ensue. If Hadden was frozen to four degrees
Kelvin at ten billion kilometers from Earth, what exactly was his legal status?
Who would control his corporations? This way was much tidier. In a minor
codicil of an elaborate last will and testament, he had left his heirs and
assigns a new corporation, skilled in rocket engines and cryogenics, that would
eventually be called Immortality, Inc. He need never think of the matter again.
Gilgamesh was not equipped with a radio. He no longer wished to know what had
happened to the Five. He wanted no more news of Earth--nothing cheering,
nothing to make him disconsolate, none of the pointless tumult he had known.
Only solitude, elevated thoughts…silence. If anything adverse should occur in
the next few years, Gilgamesh's cryogenics could be activated by the flip of a
switch. Until then, there was a full library of his favorite music, and
literature and videotapes. He would not be lonely. He had never really been
much for company. Yamagishi had considered coming, but ultimately reneged; he
would be lost, he said, without "staff." And on this journey there
were insufficient inducements, as well as inadequate space for staff. The
monotony of the food and the modest scale of the amenities might be daunting to
some, but Hadden knew himself to be a man with a great dream. The amenities
mattered not at all.
In two years, this flying sarcophagus
would fall into the gravitational potential well of Jupiter, just outside its
radiation belt, be slingshot around the planet and then flung off into
interstellar space. For a day he would have a view still more spectacular than
that out the window of his study on Methuselah--the roiling multicolored clouds
of Jupiter, the largest planet. If it were only a matter of the view, Hadden
would have opted for Saturn and the rings. He preferred the rings. But Saturn
was at least four years from Earth and that was, all things considered, taking
a chance. If you're stalking immortality, you have to be very careful.
At these speeds it would take ten thousand
years to travel even the distance to the nearest star. When you're frozen to
four degrees above absolute zero, though, you have plenty of time. But some
fine day--he was sure of it, though it be a million years from now--Gilgamesh
would by chance enter someone else's solar system. Or his funeral barge would
be intercepted in the darkness between the stars, and other beings-- very
advanced, very far-seeing--would take the sarcophagus aboard and know what had
to be done. It had never really been attempted before. No one who ever lived on
Earth had come this close. Confident that in his end would be his beginning, he
closed his eyes and folded his arms experimentally across his chest, as the
engines flared again, this time more briefly, and the burnished craft was
sleekly set on its long journey to the stars.
Thousands of years from now, God knows
what would be happening on Earth, he thought. It was not his problem. It never
really had been. But he, he would be asleep, deep-frozen, perfectly preserved,
his sarcophagus hurtling through the interstellar void, surpassing the
Pharaohs, besting Alexander, outshining Qin. He had contrived his own
Resurrection.
CHAPTER 23
Reprogramming
We have
not followed cunningly devised fables...but were eyewitnesses.
-II PETER
1:16
Look and remember. Look upon this sky;
Look deep and deep into the sea-clean air, The unconfined, the terminus of
prayer. Speak now and speak into the hallowed dome. What do you hear? What does
the sky reply? The heavens are taken; this is not your home.
-KARL JAY SHAPIRO
Travelogue
for Exiles
The
telephone lines had been repaired, the roads plowed clean, and carefully
selected representatives of the world's press were given a brief look at the
facility. A few reporters and photographers were taken through the three
matching apertures in the benzels, through the air-lock, and into the dodec.
There were television commentaries recorded, the reporters seated, in the chairs
that the Five had occupied, telling the world of the failure of this first
courageous attempt to activate the Machine. Ellie and her colleagues were
photographed from a distance, to show that they were alive and well, but no
interviews were to be given just yet. The Machine Project was taking stock and
considering its future options. The tunnel from Honshu to Hokkaido was open
again, but the passageway from Earth to
Vega was closed. They hadn't actually tested this proposition--Ellie wondered
whether, when the Five finally left the site, the project would try to spin up
the benzels again--but she believed what she had been told: The Machine would
not work again; there would be no further access to the tunnels for the beings
of Earth. We could make little indentations in space- time as much as we liked;
it would do us no good if no one hooked up from the other side. We had been
given a glimpse, she thought, and then were left to save ourselves. If we
could.
In the end, the Five were permitted to
talk among themselves. She systematically bade farewell to each. No one blamed
her for the blank cassettes.
`These pictures on the cassettes are
recorded in magnetic domains, on tape," Vaygay reminded her. "A
strong electrical field accumulated on the benzels, and they were, of course,
moving. A time-varying electrical field makes a magnetic field. Maxwell's
equations. It seems to me that's how your tapes were erased. It was not your
fault."
Vaygay's interrogation had baffled him.
They had not exactly accused him but merely suggested that he was part of an
anti-Soviet conspiracy involving scientists from the West.
"I tell you, Ellie, the only
remaining open question is the existence of intelligent life in the
Politburo."
"And the White House. I can't
believe the President would allow Kitz to get away with this. She committed
herself to the project."
`This planet is run by crazy people.
Remember what they have to do to get where they are. Their perspective is so
narrow, so...brief. A few years. In the best of them a few decades. They care
only about the time they are in power." She thought about Cygnus A.
"But they're not sure our story is a
lie. They cannot prove it. Therefore, we must convince them. In their hearts,
they wonder, `Could it be true?' A few even want it to be true. But it is a
risky truth. They need something close to certainty....And perhaps we can
provide it. We can refine gravitational theory. We can make new astronomical
observations to confirm what we were told--especially for the Galactic Center
and Cygnus A. They're not going to stop astronomical research. Also, we can
study the dodec, if they give us access. Ellie, we will change their
minds." Difficult to do if they're all crazy, she thought to herself.
"I don't see how the governments could convince people this is a
hoax," she said.
"Really? Think of what else they've
made people believe. They've persuaded us that we'll be safe if only we spend
all our wealth so everybody on Earth can be killed in a moment--when the
governments decide the time has come. I would think it's hard to make people
believe something so foolish. No, Ellie, they're good at convincing. They need
only say that the Machine doesn't work, and that we've gone a little mad."
"I don't think we'd seem so mad if
we all told our story together. But you may be right. Maybe we should try to
find some evidence first Vaygay, will you be okay when you...go back?"
"What can they do to me? Exile me to
Gorky? I could survive that; I've had my day at the beach....No, I will be
safe. You and I have a mutual-security treaty, Ellie. As long as you're alive,
they need me. And vice versa, of course. If the story is true, they will be
glad there was a Soviet witness; eventually, they will cry it from the
rooftops. And like your people, they will wonder about military and economic
uses of what we saw.
"It doesn't matter what they tell us
to do. All that matters is that we stay alive. Then we will tell our story--all
five of us--discreetly, of course. At first only to those we trust. But those
people will tell others. The story will spread. There will be no way to stop
it. Sooner or later the governments will acknowledge what happened to us in the
dodecahedron. And until then we are insurance policies for each other. Ellie, I
am very happy about all this. It is the greatest thing that ever happened to
me."
"Give Nina a kiss for me," she
said just before he left on the night flight to Moscow.
Over breakfast, she asked Xi if he was disappointed.
"Disappointed? To go there"--he
lifted his eyes skyward--"to see them, and to be disappointed? I am an
orphan of the Long March. I survived the Cultural Revolution. I was trying to
grow potatoes and sugar beets for six years in the shadow of the Great Wall.
Upheaval has been my whole life. I know disappointment.
"You have been to a banquet, and
when you come home to your starving village you are disappointed that they do
not celebrate your return? This is no disappointment. We have lost a minor
skirmish. Examine the disposition of forces."
He would shortly be departing for China,
where he had agreed to make no public statements about what had happened in the
Machine. But he would return to supervise the dig at Xian. The tomb of Qin was
waiting for him. He wanted to see how closely the Emperor resembled that
simulation on the far side of the tunnels.
"Forgive me. I know this is
impertinent," she said after a while, "but the fact that of all of
us, you alone met someone who...In all your life, wasn't there anyone you
loved?"
She wished she had phrased the question
better. "Everyone I ever loved was taken from me. Obliterated. I saw the
emperors of the twentieth century come and go," he answered. "I
longed for someone who could not be revised, or rehabilitated, or edited out.
There are only a few historical figures who cannot be erased."
He was looking at the tabletop, fingering
the teaspoon. "I devoted my life to the Revolution, and I have no regrets.
But I know almost nothing of my mother and father. I have no memories of them.
Your mother is still alive. You remember your father, and you found him again.
Do not overlook how fortunate you are."
In Devi, Ellie sensed a grief she had
never before noticed. She assumed it was a reaction to the skepticism with
which Project Directorate and the governments had greeted their story. But Devi
shook her head.
"Whether they believe us is not very
important for me. The experience itself is central. Transforming. Ellie, that
really happened to us. It was real. The first night we were back here on
Hokkaido, I dreamt that our experience was a dream, you know? But it wasn't, it
wasn't.
"Yes, I'm sad. My sadness is...You
know, I satisfied a lifelong wish up there when I found Surindar again, after
all these years. He was exactly as I remembered him, exactly as I've dreamed of
him. But when I saw him, when I saw so perfect a simulation, I knew: This love
was precious because it had been snatched away, because I had given up so much
to marry him. Nothing more. The man was a fool. Ten years with him, and we
would have been divorced. Maybe only five. I was so young and foolish."
"I'm truly sorry," Ellie said.
"I know a little about mourning a lost love."
"Ellie," she replied, "you
don't understand. For the first time in my adult life, I do not mourn Surindar.
What I mourn is the family I renounced for his sake."
Sukhavati was returning to Bombay for a
few days and then would visit her ancestral village in Tamil Nadu.
"Eventually," she said,
"it will be easy to convince ourselves this was only an illusion. Every
morning when we wake up, our experience will be more distant, more dreamlike.
It would have been better for us all to stay together, to reinforce our
memories. They understood this danger. That's why they took us to the seashore,
something like our own planet, a reality we can grasp. I will not permit anyone
to trivialize this experience. Remember. It really happened. It was not a
dream. Ellie, don't forget."
Eda was, considering the circumstances,
very relaxed. She soon understood why. While she and Vaygay had been undergoing
lengthy interrogations, he had been calculating.
"I think the tunnels are
Einstein-Rosen bridges," he said. "General Relativity admits a class
of solutions, called wormholes, similar to black holes, but with no
evolutionary connection--they cannot be generated, as black holes can, by the
gravitational collapse of a star. But the usual sort of wormhole, once made,
expands and contracts before anything can cross through; it exerts disastrous
tidal forces, and it also requires--at least as seen by an observer left
behind--an infinite amount of time to get through."
Ellie did not see how this represented much
progress, and asked him to clarify. The key problem was holding the wormhole
open. Eda had found a class of solutions to his field equations that suggested
a new macroscopic field, a kind of tension that could be used to prevent a
wormhole from contracting fully. Such a wormhole would pose none of the other
problems of black holes; it would have much smaller tidal stresses, two-way
access, quick transit times as measured by an exterior observer, and no
devastating interior radiation field. "I don't know whether the tunnel is
stable against small perturbations," he said. "If not, they would
have to build a very elaborate feedback system to monitor and correct the
instabilities. I'm not yet sure of any of this. But at least if the tunnels can
be Einstein-Rosen bridges, we can give some answer when they tell us we were
hallucinating,"
Eda was eager to return to Lagos, and she
could see the green ticket of Nigerian Airlines peeking out of his jacket
pocket. He wondered if he could completely work through the new physics their
experience had implied. But he confessed himself unsure that he would be equal
to the task, especially because of what he described as his advanced age for
theoretical physics. He was thirty-eight. Most of all, he told Ellie, he was desperate
to be reunited with his wife and children.
She embraced Eda. She told him that she
was proud to have known him.
"Why the past tense?" he asked.
"You will certainly see me again. And Ellie," he added, almost as an
afterthought, "will you do something for me? Remember everything that
happened, every detail. Write it down. And send it to me. Our experience
represents experimental data. One of us may have seen some point that the
others missed, something essential for a deep understanding of what happened.
Send me what you write. I have asked the others to do the same."
He waved, lifted his battered briefcase,
and was ushered into the waiting project car.
They were departing for their separate
nations, and it felt to Ellie as if her own family were being sundered, broken,
dispersed. She too had found the experience transforming. How could she not? A
demon had been exorcised. Several. And just when she felt more capable of love
than she had ever been, she found herself alone.
They spirited her out of the facility by helicopter. On the long
flight to Washington in the government airplane, she slept so soundly that they
had to shake her awake when the White House people came aboard-- just after the
aircraft landed briefly on an isolated runway at Hickam Field, Hawaii.
They had made a bargain. She could go
back to Argus, although no longer as director, and pursue any scientific
problem she pleased. She had, if she liked, lifetime tenure.
"We're not unreasonable," Kitz
had finally said in agreeing to the compromise. "You come back with a
solid , piece of evidence, something really convincing, and we'll join you in
making the announcement. We'll say we asked you to keep the story quiet until
we could be absolutely sure. Within reason, we'll support any research you want
to do. If we announce the story now, though, there'll be an initial wave of
enthusiasm and then the skeptics will start carping. It'll embarrass you and
it'll embarrass us. Much better to gather the evidence, if you can."
Perhaps the President had helped him change his mind. It was unlikely Kitz was
enjoying the compromise.
But in return she must say nothing about
what had happened aboard the Machine. The Five had sat down in the
dodecahedron, talked among themselves, and then walked off. If she breathed a
word of anything else, the spurious psychiatric profile would find its way to
the media and, reluctantly, she would be dismissed.
She wondered whether they had attempted
to buy Peter Valerian's silence, or Vaygay's, or Abonnema's. She couldn't see
how--short of shooting the debriefing teams of five nations and the World
Machine Consortium--they could hope to keep this quiet forever. It was only a
matter of time. So, she concluded, they were buying time.
It surprised her how mild the threatened
punishments were, but violations of the agreement, if they happened would not
come on Kitz's watch. He was shortly retiring; in a year, the Lasker
Administration would be leaving office after the constitutionally mandated
maximum of two terms. He had accepted a partnership in a Washington law firm
known for its defense-contractor clientele.
Ellie thought Kitz would attempt
something more. He seemed unworried about anything she might claim occurred at
the Galactic Center. What he agonized about, she was sure, was the possibility
that the tunnel was still open to even if not from the Earth. She thought the
Hokkaido facility would soon be disassembled. The technicians would return to
their industries and universities. What stories would they tell? Perhaps the
dodecahedron would be displayed in the Science City of Tsukuba. Then, after a
decent interval when the world's attention was to some extent distracted by
other matters, perhaps there would be an explosion at the Machine
site--nuclear, if Kitz could contrive a plausible explanation for the event If
it was a nuclear explosion, the radiological contamination would be an
excellent reason to declare the whole area a forbidden zone. It would at least isolate
the site from casual observers and might just shake the nozzle loose. Probably
Japanese sensibilities about nuclear weapons, even if exploded underground,
would force Kitz to settle for conventional explosives. They might disguise it
as one of the continuing series of Hokkaido coal- mine disasters. She doubted
if any explosion--nuclear or conventional--could disengage the Earth from the
tunnel.
But perhaps Kitz was imagining none of
these things. Perhaps she was selling him short. After all, he too must have
been influenced by Machindo. He must have a family, friends, someone be loved.
He must have caught at least a whiff of it.
The next day, the President awarded her
the National Medal of Freedom in a public ceremony at the White House. Logs
were burning in a fireplace set in a white marble wall. The President had
committed a great deal of political as well as the more usual sort of capital
to the Machine Project and was determined to make the best face of it before
the nation and the world. Investments in the Machine by the United States and
other nations, the argument went, had paid off handsomely. New technologies,
new industries were blossoming, promising at least as much benefit for ordinary
people as the inventions of Thomas Edison. We had discovered that we are not
alone, that intelligences more advanced than we existed out there in space.
They had changed forever, the President said, our conception of who we are.
Speaking for herself--but also, she thought, for most Americans--the discovery
had strengthened her belief in God, now revealed to be creating life and
intelligence on many worlds, a conclusion that the President was sure would be
in harmony with all religions. But the greatest good granted us by the Machine,
the President said, was the spirit it had brought to Earth--the increasing
mutual understanding within the human community, the sense that we were all
fellow passengers on a perilous journey in space and in time, the goal of a
global unity of purpose that was now known all over the planet as Machindo.
The President presented Ellie to the
press and the television cameras, told of her perseverance over twelve long
years, her genius in detecting and decoding the Message, and her courage in
going aboard the Machine. No one knew what the Machine would do. Dr. Arroway
had willingly risked her life. It was not Dr. Arroway's fault that nothing
happened when the Machine was activated. She had done as much as any human
possibly could. She deserved the thanks of all Americans, and of all people
everywhere on Earth. Ellie was a very private person. Despite her natural
reticence, she had when the need arose shouldered the burden of explaining the
Message and the Machine. Indeed, she had shown a patience with the press that
she, the President, admired particularly. Dr. Arroway should now be permitted
some real privacy, so she could resume her scientific career. There had been
press announcements, briefings, interviews with Secretary Kitz and Science
Adviser der Heer. The President hoped the press would respect Dr. Arroway's
wish that there be no press conference. There was, however, a photo
opportunity. Ellie left Washington without determining how much the President
knew.
They flew her back in a small sleek jet
of the Joint Military Airlift Command, and agreed to stop in Janesville on the
way. Her mother was wearing her old quilted robe. Someone had put a little
color on her cheeks. Ellie pressed her face into the pillow beside her mother.
Beyond regaining a halting power of speech, the old woman had recovered the use
of her right arm sufficiently to give Ellie a few feeble pats on her shoulder.
"Mom, I've got something to tell
you. It's a great thing. But try to be calm. I don't want to upset you. Mom...I
saw Dad. I saw him. He sends you his love."
"Yes ..." The old woman slowly
nodded. "Was here yesterday."
John Staughton, Ellie knew, had been to
the nursing home the previous day. He had begged off accompanying Ellie today,
pleading an excess of work, but it seemed possible that Staughton merely did
not wish to intrude on this moment. Nevertheless, she found herself saying,
with some irritation, "No, no. I'm talking about Dad."
`Tell him..." The old woman's speech
was labored. `Tell him, chiffon dress. Stop cleaners...way home from
store."
Her father evidently still ran the
hardware store in her mother's universe. And Ellie's.
The long sweep of cyclone fencing now
stretched uselessly from horizon to horizon, blighting the expanse of scrub
desert. She was glad to be back, glad to be setting up a new, although much
smaller-scale, research program.
Jack Hibbert had been appointed Acting
Director of the Argus facility, and she felt unburdened of the administrative
responsibilities. Because so much telescope time had been freed when the signal
from Vega had ceased, there was a heady air of progress in a dozen
long-languishing subdisciplines of radio astronomy. Her co-workers offered not
a hint of support for Kitz's notion of a Message hoax. She wondered what der
Heer and Valerian were telling their friends and colleagues about the Message
and the Machine.
Ellie doubted that Kitz had breathed a
word of it outside the recesses of his soon-to-be-vacated Pentagon office. She
had been there once; a Navy enlisted man--sidearm in leather holster and hands
clasped behind his back--had stiffly guarded the portal, in case in the warren
of concentric hallways some passerby should succumb to an irrational impulse.
Willie had himself driven the Thunderbird
from Wyoming, so it would be waiting for her. By agreement she could drive it
only on the facility, which was large enough for ordinary joyriding. But no
more West Texas landscapes, no more coney honor guards, no more mountain drives
to glimpse a southern star. This was her sole regret about the seclusion. But
the ranks of saluting rabbits were at any rate unavailable in winter.
At first a sizable press corps haunted
the area in hopes of shouting a question at her or photographing her through a
telescopic lens. But she remained resolutely isolated. The newly imported
public relations staff was effective, even a little ruthless, in discouraging
inquiries. After all, the President had asked for privacy for Dr. Arroway.
Over the following weeks and months, the
battalion of reporters dwindled to a company and then to a platoon. Now only a
squad of the most steadfast remained, mostly from The World Hologram and other
sensationalist weekly newspapers, the chiliast magazines, and a lone
representative from a publication that called itself Science and God. No. one
knew what sect it belonged to, and its reporter wasn't telling.
When the stories were written, they told
of twelve years of dedicated work, culminating in the momentous, triumphant
decryption of the Message and followed by the construction of the Machine. At
the peak of world expectation, it had, sadly, failed. The Machine had gone
nowhere. Naturally Dr. Arroway was disappointed, maybe, they speculated, even a
little depressed. Many editorialists commented that this pause was welcome. The
pace of new discovery and the evident need for major philosophical and
religious reassessments represented so heady a mix that a time of retrenchment
and slow reappraisal was needed. Perhaps the Earth was not yet ready for
contact with alien civilizations. Sociologists and some educators claimed that
the mere existence of extra-terrestrial intelligences more advanced than we
would require several generations to be properly assimilated. It was a body
blow to human self-esteem, they said. There was enough on our plate already. In
another few decades we would much better understand the principles underlying
the Machine. We would see what mistake we had made, and we would laugh at how
trivial an oversight had prevented it from functioning in its first full trial
back in 1999.
Some religious commentators argued that
the failure of the Machine was a punishment for the sin of pride, for human
arrogance. Billy Jo Rankin in a nationwide television address proposed that the
Message had in fact come straight from a Hell called Vega, an authoritative
consolidation of his previous positions on the matter. The Message and the
Machine, he said, were a latter-day Tower of Babel. Humans foolishly, tragically,
had aspired to reach the Throne of God. There had been a city of fornication
and blasphemy built thousands of years ago called Babylon, which God had
destroyed. In our time, there was another such city with the same name. Those
dedicated to the Word of God had fulfilled His purpose there as well. The
Message and the Machine represented still another assault of wickedness upon
the righteous and God- fearing. Here again the demonic initiatives had been
forestalled--in Wyoming by a divinely inspired accident, in Godless Russia
through the confounding of Communist scientists by the Divine Grace.
But despite these clear warnings of God's
will, Rankin continued, humans had for a third time tried to build the Machine.
God let them. Then, gently, subtly, He caused the Machine to fail, deflected
the demonic intent, and once more demonstrated His care and concern for His
wayward and sinful--if truth be told. His unworthy-children on Earth. It was
time to learn the lessons of our sinfulness, our abominations, and, before the
coming Millennium, the real Millennium that would begin on January 1, 2001,
rededicate our planet and ourselves to God.
The Machines should be destroyed. Every
last one of them, and all their parts. The pretense that by building a machine
rather than by purifying their hearts humans could stand at the right hand of
God must be expunged, root and branch, before it was too late.
In her little apartment Ellie heard
Rankin out, turned off the television set and resumed her programming.
The only outside calls she was permitted
were to the rest home in Janesville, Wisconsin. All incoming calls except from
Janesville were screened out. Polite apologies were provided. Letters from der
Heer, Valerian, from her old college friend Becky Ellenbogen, she filed
unopened. There were a number of messages delivered by express mail services,
and then by courier, from South Carolina, from Palmer Joss. She was much more
tempted to read these, but did not. She wrote him a note that read only,
"Dear Palmer, Not yet. Ellie," and posted it with no return address.
She had no way to know if it would be delivered.
A television special on her life, made
without her consent, described her as more reclusive now than Neil Armstrong,
or even Greta Garbo. Ellie took it all with cheerful equanimity. She was
otherwise occupied. Indeed, she was working night and day.
The prohibitions on communication with
the outside world did not extend to purely scientific collaboration, and
through open-channel asynchronous telenetting she and Vaygay organized a
long-term research program. Among the objects to be examined were the vicinity
of Sagittarius A at the center of the Galaxy, and the great extragalactic radio
source, Cygnus A. The Argus telescopes were employed as part of a phased array,
linked with the Soviet telescopes in Samarkand. Together, the American-Soviet
array acted as if they were part of a single radio telescope the size of the
Earth. Operating at a wavelength of a few centimeters, they could resolve
sources of radio emission as small as the inner solar system if they were as
faraway as the center of the Galaxy.
She worried that this was not good
enough, that the two orbiting black holes were considerably smaller than that.
Still, a continuous monitoring program might turn up something. What they
really needed, she thought, was a radio telescope launched by space vehicle to
the other side of the Sun, and working in tandem with radio telescopes on
Earth. Humans could thereby create a telescope effectively the size of the
Earth's orbit. With it, she calculated, they could resolve something the size
of the Earth at the center of the Galaxy. Or maybe the size of the Station.
She spent most of her time writing,
modifying existing programs for the Cray 21, and setting down an account--as
detailed as she possibly could make it--of the salient events that had been
squeezed into the twenty minutes of Earth-time after they activated the
Machine. Halfway through, she realized she was writing samizdat. Typewriter and
carbon paper technology. She locked the original and two copies in her
safe--beside a yellowing copy of the Hadden Decision--secreted the third copy
behind a loose plank in the electronics bay of Telescope 49, and burned the
carbon paper. It generated a black acrid smoke. In six weeks she had finished
reprogramming and just as her thoughts returned to Palmer Joss, he presented
himself at the Argus front gate.
His way had been cleared by a few phone
calls from a special assistant to the President, with whom, of coarse, Joss had
been acquainted for years. Even here in the Southwest with its casual sartorial
codes, he wore, as always, a jacket, a white shirt, and a tie. She gave him the
palm frond, thanked him for the pendant, and despite all of Kite's admonitions
to keep her delusional experience quiet, immediately told him everything.
They adopted the practice of her Soviet
colleagues, who whenever anything politically unorthodox needed to be said,
discovered the urgent necessity for a brisk walk. Every now and then he would
stop and, a distant observer would see, lean toward her. Each time she would
take his arm and they would walk on.
He listened sympathetically,
intelligently, indeed generously--especially for someone whose doctrines must,
she thought, be challenged at their fundaments by her account...if he gave them
any credence at all. After all his reluctance at the time the Message had first
been received, at last she was showing Argus to him. He was companionable, and
she found herself happy to see him. She wished she had been less preoccupied
when she had seen him last, in Washington.
Apparently at random, they climbed up the
narrow metal exterior stairways that straddled the base of Tele-scope 49. The
vista of 130 radio telescopes--most of them rolling stock on their own set of
railway tracks--was like nothing else on Earth. In the electronics bay she slid
back the plank and retrieved a bulky envelope with Joss's name upon it. He put
it in his inside breast pocket, where it made a discernible bulge.
She told him about the Sag A and Cyg A
observing protocols. She told him about her computer program.
"It's very time-consuming, even with
the Cray, to calculate pi out to something like ten to the twentieth place. And
we don't know that what we're looking for is in pi. They sort of said it
wasn't. It might be e. It might be one of the family of transcendental numbers
they told Vaygay about It might be some altogether different number. So a
simple-minded brute-force approach--just calculating fashionable transcendental
numbers forever--is a waste of time. But here at Argus we have very
sophisticated decryption algorithms, designed to find patterns in a signal,
designed to pull out and display anything that looks nonrandom. So I rewrote
the programs ..."
From the expression on his face, she was
afraid she had not been clear. She made a small swerve in the monologue.
"...but not to calculate the digits in a number like pi, print than out,
and present them for inspection. There isn't enough time for that. Instead, the
program races through the digits in pi and pauses even to think about it only
when there's some anomalous sequence of zeros and ones. You know what I'm
saying? Something nonrandom. By chance, there'll be some zeros and ones, of
course. Ten percent of the digits will be zeros, and another ten percent will
be ones. On average. The more digits we race through, the longer the sequences
of pure zeros and ones that we should get by accident. The program knows what's
expected statistically and only pays attention to unexpectedly long sequences
of zeros and ones. And it doesn't only look in base ten."
"I don't understand. If you look at
enough random numbers, won't you get any pattern you want simply by
chance?"
"Sure. But you can calculate how
likely that is. If you get a very complex message very early on, you know it
can't be by chance. So, every day in the early hours of the morning the
computer works on this problem. No data from the outside world goes in. And so
far no data from the inside world comes out. It just runs through the optimum
series expansion for pi and watches the digits fly. It minds its own business.
Unless it finds something, it doesn't speak unless it's spoken to. It's sort of
contemplating its navel."
"I'm no mathematician, God knows.
But could you give me a f'r instance?"
"Sure." She searched in the
pockets of her jump suit for a piece of paper and could find none. She thought
about reaching into his inside breast pocket, retrieving the envelope she had
just given him and writing on it, but decided that was too risky out here in
the open. After a moment, he understood and produced a small spiral notebook.
"Thanks. Pi starts out
3.1415926...You can see that the digits vary pretty randomly. Okay, a one
appears twice in the first four digits, but after you keep on going for a while
it averages out. Each digit--0, 1, 2, 3, 4, 5, 6, 7, 8, 9--appears almost
exactly ten percent of the time when you've accumulated enough digits.
Occasionally you'll get a few consecutive digits that are the same--4444, for
example-- but not more than you'd expect statistically. Now, suppose you're
running merrily through these digits and suddenly you find nothing but fours. Hundreds
of fours all in a row. That couldn't carry any information, but it also
couldn't be a statistical fluke. You could calculate the digits in pi for the
age of the universe and, if the digits are random, you'd never go deep enough
to get a hundred consecutive fours."
"It's like the search you did for
the Message. With these radio telescopes."
"Yes; in both cases we were looking
for a signal that's well out of the noise, something that can't be just a
statistical fluke."
"But it doesn't have to be a hundred
fours--is that right? It could speak to us?"
"Sure. Imagine after a while we get
a long sequence of just zeros and ones. Then, just as we did with the Message,
we could pull a picture out, if there's one in there. You understand, it could
be anything."
"You mean you could decode a picture
hiding in pi and it would be a mess of Hebrew letters?"
"Sure. Big blade letters, carved in
stone." He looked at her quizzically.
"Forgive me, Eleanor, but don't you
think you're being a mite too...indirect? You don't belong to a silent order of
Buddhist nuns. Why don't you just tell your story?"
"Palmer, if I had hard evidence, I'd
speak up. But if I don't have any, people like Kitz will say that I'm lying. Or
hallucinating. That's why that manuscript's in your inside pocket. You're going
to seal it, date it, notarize it, and put it in a safety-deposit box. If
anything happens to me, you can release it to the world. I give you full
authority to do anything you want with it."
"And if nothing happens to
you?"
"If nothing happens to me? Then,
when we find what we're looking for, that manuscript will confirm our story. If
we find evidence of a double black hole at the Galactic Center, or some huge
artificial construction in Cygnus A, or a message hiding inside pi,
this"--she tapped him lightly on the chest--"will be my evidence.
Then I'll speak out....Meantime, don't lose it."
"I still don't understand," he
confessed. "We know there's a mathematical order to the universe. The law
of gravity and all that. How is this different? So there's order inside the
digits of pi. So what?"
"No, don't you see? This would be
different. This isn't just starting the universe out with some precise
mathematical laws that determine physics and chemistry. This is a message.
Whoever makes the universe hides messages in transcendental numbers so they'll
be read fifteen billion years later when intelligent life finally evolves. I
criticized you and Rankin the time we first met for not understanding this. If
God wanted us to know that he existed, why didn't he send us an unambiguous
message?' I asked. Remember?"
"I remember very well. You think God
is a mathematician."
"Something like that. If what we're
told is true. If this isn't a wild-goose chase. If there's a message hiding in
pi and not one of the infinity of other transcendental numbers. That's a lot of
ifs."
"You're looking for Revelation in
arithmetic. I know a better way."
"Palmer, this is the only way. This
is the only thing that would convince a skeptic. Imagine we find something. It
doesn't have to be tremendously complicated. Just something more orderly than
could accumulate by chance that many digits into pi That's all we need. Then
mathematicians all over the world can find exactly the same pattern or message
or whatever it proves to be. Then there are no sectarian divisions. Everybody
begins reading the same Scripture. No one could then argue that the key miracle
in the religion was some conjurer's trick, or that later historians had
falsified the record, or that it's just hysteria or delusion or a substitute
parent for when we grow up. Everyone could be a believer."
"You can't be sure you'll find
anything. You can hide here and compute till the cows come home. Or you can go
out and tell your story to the world. Sooner or later you'll have to
choose."
"I'm hoping I won't have to choose.
Palmer. First the physical evidence, then the public announcements.
Otherwise...Don't you see how vulnerable we'd be? I don't mean for myself, but
..."
He shook his head almost imperceptibly. A
smile was playing at the corners of his lips. He had detected a certain irony
in their circumstances.
"Why are you so eager for me to tell
my story?" she asked.
Perhaps he took it for a rhetorical
question. At any rate he did not respond, and she continued.
"Don't you think there's been a
strange...reversal of our positions? Here I am, the bearer of the profound
religious experience I can't prove--really, Palmer, I can barely fathom it. And
here you are, the hardened skeptic trying-- more successfully than I ever
did--to be kind to the credulous."
"Oh no, Eleanor," he said,
"I'm not a skeptic. I'm a believer."
"Are you? The story I have to tell
isn't exactly about Punishment and Reward. It's not exactly Advent and Rapture.
There's not a word in it about Jesus. Part of my message is that we're not
central to the purpose of the Cosmos. What happened to me makes us all seem
very small."
"It does. But it also makes God very
big." She glanced at him for a moment and rushed on. "You know, as
the Earth races around the Sun, the powers of this world--the religious powers,
the secular powers-- once pretended the Earth wasn't moving at all. They were
in the business of being powerful. Or at least pretending to be powerful And
the truth made them feel too small. The truth frightened them; it undermined
their power. So they suppressed it. Those people found the truth dangerous.
You're sure you know what believing me entails?"
"I've been searching, Eleanor. After
all these years, believe me, I know the truth when I see it. Any faith that
admires truth, that strives to know God, must be brave enough to accommodate
the universe. I mean the real universe. All those light-years. All those
worlds. I think of the scope of your universe, the opportunities it affords the
Creator, and it takes my breath away. It's much better than bottling Him up in
one small world. I never liked the idea of Earth as God's green footstool. It
was too reassuring, like a children's story...like a tranquilizer. But your
universe has room enough, and time enough, for the kind of God I believe in.
"I say you don't need any more
proof. There are proofs enough already. Cygnus A and all that are just for the
scientists. You think it'll be hard to convince ordinary people that you're
telling the truth. I think it'll be easy as pie. You think your story is too
peculiar, too alien. But I've heard it before. I know it well. And I bet you do
too." He closed his eyes and, after a moment, recited:
He
dreamed, and behold a ladder set up on the earth, and the top of it reached to
heaven: and behold the angels of God ascending and descending on it.....surely
the Lord is in this place; and I knew it not....This is none other but the
House of God, and this is the gate of heaven.
He had
been a little carried away, as if preaching to the multitudes from the pulpit
of a great cathedral, and when he opened his eyes it was with a small
self-deprecatory smile. They walked down a vast avenue, flanked left and right
by enormous whitewashed radio telescopes straining at the sky, and after a
moment he spoke in a more conversational tone.
"Your story has been foretold. It's
happened before. Somewhere inside of you, you must have known. None of your
details are in the Book of Genesis. Of course not. How could they be? The
Genesis account was right for the time of Jacob. Just as your witness is right
for this time, for our time.
"People are going to believe you,
Eleanor. Millions of them. All over the world. I know it for certain..."
She shook her head, and they walked on
for another moment in silence before he continued.
"All right, then. I understand. You
take as much time as you have to. But if there's any way to hurry it up, do
it--for my sake. We have less than a year to the Millennium."
"I understand also. Bear with me a
few more months. If we haven't found something in pi by then, I'll consider
going public with what happened up there. Before January 1. Maybe Eda and the
others would be willing to speak out also. Okay?"
They walked in silence back toward the
Argus administration building. The sprinklers were watering the meager lawn,
and they stepped around a puddle that, on this parched earth, seemed alien, out
of place. "Have you ever been married?" he asked. "No, I never
have. I guess I've been too busy."
"Ever been in love?" The
question was direct, matter-of-fact.
"Halfway, half a dozen times.
But"--she glanced at the nearest telescope--"there was always so much
noise, the signal was hard to find. And you?"
"Never," he replied flatly.
There was a pause, and then he added with a faint smile, "But I have
faith."
She decided not to pursue this ambiguity
just yet, and they mounted the short flight of stairs to examine the Argus
mainframe computer.
CHAPTER 24
The
Artist's Signature
Behold, I
tell you a mystery; we shall not all sleep, but we shall all be changed....
CORINTHIANS 15:51
The universe seems...to have been
determined and ordered in accordance with number, by the forethought and the
mind of the creator of all things; for the pattern was fixed, like a preliminary
sketch, by the domination of number preexistent in the mind of the
world-creating God.
-NICOMACHUS
OF GERASA
Arithmetic
I, 6 (ca. A.D. 100)
She rushed
up the steps of the nursing home and, on the newly repainted green veranda,
marked off at regular intervals by empty rocking chairs, she saw John
Staughton--stooped, immobile, his arms dead weights. In his right hand be
clutched a shopping bag in which Ellie could see a translucent shower cap, a
flowered makeup case, and two bedroom slippers adorned with pink pom-poms.
"She's gone," he said as his
eyes focused. "Don't go in," he pleaded. "Don't look at her. She
would've hated for you to see her like this. You know how much pride she took
in her appearance. Anyway, she's not in there."
Almost reflexively, out of long practice and still unresolved
resentments, Ellie was tempted to turn and enter anyway. Was she prepared, even
now, to defy him as a matter of principle? What was the principle, exactly?
From the havoc on his face, there was no question about the authenticity of his
remorse. He had loved her mother. Maybe, she thought, he loved her more than I
did, and a wave of self-reproach swept through her. Her mother had been so
frail for so long that Ellie had tested, many times, how she would respond when
the moment came. She remembered how beautiful her mother had been in the
picture that Staughton had sent her, and suddenly, despite her rehearsals for
this moment, she was wracked with sobs.
Startled by her distress, Staughton moved
to comfort her. But she put up a hand, and with a visible effort regained her
self-control. Even now, she could not bring herself to embrace him. They were
strangers, tenuously linked by a corpse. But she had been wrong--she knew it in
the depths of her being--to have blamed Staughton for her father's death.
"I have something for you," he
said as he fumbled in the shopping bag. Some of the contents circulated between
top and bottom, and she could see now an imitation-leather wallet and a plastic
denture case. She had to look away. At last he straightened up, flourishing a
weather-beaten envelope.
"For Eleanor," it read.
Recognizing her mother's handwriting, she moved to take it. Staughton took a
startled step backward, raising the envelope in front of his face as if she had
been about to strike him.
"Wait," he said. "Wait. I
know we've never gotten along. But do me this one favor: Don't read the letter
until tonight. Okay?"
In his grief, he seemed a decade older.
"Why?" she asked.
"Your favorite question. Just do me
this one courtesy. Is it too much to ask?"
"You're right," she said.
"It's not too much to ask. I'm sorry."
He looked her directly in the eye.
"Whatever happened to you in that Machine," he said, "maybe it
changed you."
"I hope so, John."
She called Joss and asked him if he would
perform the funeral service. "I don't have to tell you I'm not religious.
But there were times when my mother was. You're the only person I can think of
whom I'd want to do it, and I'm pretty sure my stepfather will approve."
He would be there on the next plane, Joss assured her.
In her hotel room, after an early dinner,
she fingered the envelope, caressing every fold and scuff. It was old. Her
mother must have written it years ago, carrying it around in some compartment
of her purse, debating with herself whether to give it to Ellie. It did not
seem newly resealed, and Ellie wondered whether Staughton had read it. Part of
her hungered to open it, and part of her hung back with a kind of foreboding.
She sat for a long time in the musty armchair thinking, her knees drawn up
limberly against her chin.
A chime sounded, and the not quite
noiseless carriage of her telefax came to life. It was linked to the Argus
computer. Although it reminded her of the old days, there was no real urgency.
Whatever the computer had found was not about to go away; pi would not set as
the Earth turned. If there was a message hiding inside pi, it would wait for
her forever.
She examined the envelope again, but the
echo of the chime intruded. If there was content inside a transcendental
number, it could only have been built into the geometry of the universe from
the beginning. This new project of hers was in experimental theology. But so is
all of science, she thought. "STAND BY," the computer printed out on
the telefax screen.
She thought of her father....ell, the
simulacrum of her father...about the Caretakers with their network of tunnels
through the Galaxy. They had witnessed and perhaps influenced the origin and
development of life on millions of worlds. They were building galaxies, closing
off sectors of the universe. They could manage at least a limited kind of time
travel. They were gods beyond the pious imaginings of almost all religions--all
Western religions, anyway. But even they had their limitations. They had not
built the tunnels and were unable to do so. They had not inserted the message
into the transcendental number, and could not even read it. The Tunnel builders
and the pi in-scribers were somebody else. They didn't live here anymore. They
had left no forwarding address. When the Tunnel builders had departed, she
guessed, those who would eventually be the Caretakers had become abandoned
children. Like her, like her.
She thought about Eda's hypothesis that
the tunnels were wormholes, distributed at convenient intervals around
innumerable stars in this and other galaxies. They resembled black holes, but
they had different properties and different origins. They were not exactly
massless, because she had seen them leave gravitational wakes in the orbiting
debris in the Vega system. And through them beings and ships of many kinds
traversed and bound up the Galaxy.
Wormholes. In the revealing jargon of
theoretical physics, the universe was their apple and someone had tunneled
through, riddling the interior with passageways that criss-crossed the core.
For a bacillus who lived on the surface, it was a miracle. But a being standing
outside the apple might be less impressed. From that perspective, the Tunnel
builders were only an annoyance. But if the Tunnel builders are worms, she
thought, who are we? The Argus computer had gone deep into pi, deeper than
anyone on Earth, human or machine, had ever gone, although not nearly so deep
as the Caretakers had ventured. This was much too soon, she thought, to be the
long-undecrypted message about which Theodore Arroway had told her on the
shores of that uncharted sea. Maybe this was just a gearing up, a preview of coming
attractions, an encouragement to further exploration, a token so humans would
not lose heart. Whatever it was, it could not possibly be the message the
Caretakers were struggling with. Maybe there were easy messages and hard
messages, locked away in the various transcendental cumbers, and the Argus
computer had found the easiest. With help.
At the Station, she had learned a kind of
humility, a reminder of how little the inhabitants of Earth really knew. There
might, she thought, be as many categories of beings more advanced than humans
as there are between us and the ants, or maybe even between us and the viruses.
But it had not depressed her. Rather than a daunting resignation, it had
aroused in her a swelling sense of wonder. There was so much more to aspire to
now.
It was like the step from high school to
college, from everything coming effortlessly to the necessity of making a
sustained and disciplined effort to understand at all. In high school, she had
grasped her coursework more quickly than almost anybody. In college, she had
discovered many people much quicker than she. There had been the same sense of
incremental difficulty and challenge when she entered graduate school, and when
she became a professional astronomer. At every stage, she had found scientists
more accomplished than she, and each stage had been more exciting than the
last. Let the revelations roll, she thought, looking at the telefax. She was
ready.
"TRANSMISSION PROBLEM. S/N<10.
PLEASE STAND BY."
She was linked to the Argus computer by a
communications relay satellite called Defcom Alpha. Perhaps there had been an
attitude-control problem, or a programming foul-up. Before she could think
about it further, she found she had opened the envelope.
ARROWAY HARDWARE, the letterhead said,
and sure enough, the type font was that of the old Royal her father had kept at
home to do both business and personal accounts. "June 13, 1964" was
typed in the upper right-hand corner. She had been fifteen then. Her father could
not have written it; he had been dead for years. A glance at the bottom of the
page confirmed the neat hand of her mother.
My sweet
Ellie, Now that I'm dead, I hope you can find it in your heart to forgive me. I
know I committed a sin against you, and not just you. I couldn't bear how you'd
hate me if you knew the truth. That's why I didn't have the courage to tell you
while I was alive. I know how much you loved Ted Arroway, and I want you to
know I did, too. I still do. But he wasn't your real father. Your real father
is John Staughton. I did something very wrong. I shouldn't have and I was weak,
but if I hadn't you wouldn't be in the world, so please be kind when you think
about me. Ted knew and he gave me forgiveness and we said we'd never tell you.
But I look out the window right now and I see you in the backyard. You're
sitting there thinking about stars and things that I never could understand and
I'm so proud of you. You make such a point about the truth, I thought it was
right that you should know this truth about yourself. Your beginning, I mean.
If John is still alive, then he's given
you this letter. I know he'll do it. He's a better man than you think he is,
Ellie. I was lucky to find him again. Maybe you hate him so much because
something inside of you figured out the truth. But really you hate him because
he isn't Theodore Arroway. I know.
There you are, still sitting out there.
You haven't moved since I started this letter. You're just thinking. I hope and
pray that whatever you're seeking, you'll find.
Forgive me. I was only human.
Love, Mom
Ellie had
assimilated the letter in a single gulp, and immediately read it again. She had
difficulty breathing. Her hands were clammy. The impostor had turned out to be
the real thing. For most of her life, she had rejected her own father, without
the vaguest notion of what she was doing. What strength of character he had
shown during all those adolescent outbursts when she taunted him for not being
her father, for having no right to tell her what to do.
The telefax chimed again, twice. It was
now inviting her to press the RETURN key. But she did not have the will to go
to it. It would have to wait. She thought of her Fa...of Theodore Arroway, and
John Staughton, and her mother. They had sacrificed much for her, and she had
been too self-involved even to notice. She wished Palmer were with her.
The telefax chimed once more, and the
carriage moved tentatively, experimentally. She had programmed the computer to
be persistent, even a little innovative, in attracting her attention if it
thought it had found something in pi. But she was much too busy undoing and
reconstructing the mythology of her life. Her mother would have been sitting at
the desk in the big bedroom upstairs, glancing out the window as she wondered
how to phrase the letter, and her eye had rested on Ellie at age fifteen,
awkward, resentful, rebellious.
Her mother had given her another gift.
With this letter, Ellie had cycled back and come upon herself all those years
ago. She had learned so much since then. There was so much more to learn.
Above the table on which the chattering
telefax sat was a mirror. In it she saw a woman neither young nor old, neither
mother nor daughter. They had been right to keep the truth from her. She was
not sufficiently advanced to receive that signal, much less decrypt it. She had
spent her career attempting to make contact with the most remote and alien of
strangers, while in her own life she had made contact with hardly anyone at
all. She had been fierce in debunking the creation myths of others, and
oblivious to the lie at the core of her own. She had studied the universe all
her life, but had overlooked its clearest message: For small creatures such as
we the vastness is bearable only through love.
The Argus computer was so persistent and
inventive in its attempts to contact Eleanor Arroway that it almost conveyed an
urgent personal need to share the discovery.
The anomaly showed up most starkly in
Base 11 arithmetic, where it could be written out entirely as zeros and ones.
Compared with what had been received from Vega, this could be at best a simple
message, but its statistical significance was high. The program reassembled the
digits into a square raster, an equal number across and down. The first line
was an uninterrupted file of zeros, left to right. The second line showed a
single numeral one, exactly in the middle, with zeros to the borders, left and
right. After a few more lines, an unmistakable arc had formed, composed of
ones. The simple geometrical figure had been quickly constructed, line by line,
self-reflexive, rich with promise. The last line of the figure emerged, all
zeros except for a single centered one. The subsequent line would be zeros
only, part of the frame.
Hiding in the alternating patterns of
digits, deep inside the transcendental number, was a perfect circle, its form
traced out by unities in a field of noughts.
The universe was made on purpose, the
circle said. In whatever galaxy you happen to find yourself, you take the
circumference of a circle, divide it by its diameter, measure closely enough,
and uncover a miracle--another circle, drawn kilometers downstream of the
decimal point. There would be richer messages farther in. It doesn't matter
what you look like, or what you're made of, or where you come from. As long as
you live in this universe, and have a modest talent for mathematics, sooner or
later you'll find it. It's already here. It's inside everything. You don't have
to leave your planet to find it. In the fabric of space and in the nature of
matter, as in a great work of art, there is, written small, the artist's
signature. Standing over humans, gods, and demons, subsuming Caretakers and
Tunnel builders, there is an intelligence that antedates the universe. The
circle had closed. She found what she had been searching for.
- end -
Author's Note
Although of course I have been influenced
by those I know, none of the characters herein is a close portrait of a real
person. Nevertheless, this book owes much to the world SETI community--a small
band of scientists from all over our small planet, working together, sometimes
in the face of daunting obstacles, to listen for a signal from the skies. I
would like to acknowledge a special debt of gratitude to the SETI pioneers
Frank Drake, Philip Morrison, and the late I. S. Shkiovskii. The search for
extraterrestrial intelligence is now entering a new phase, with two major
programs under way--the 8-million-channel META/Sentinel survey at Harvard
University, sponsored by the Pasadena-based Planetary Society, and a still more
elaborate program under the auspices of the National Aeronautics and Space
Administration. My fondest hope for this book is that it will be made obsolete
by the pace of real scientific discovery.
Several friends and colleagues have been
kind enough to read an earlier draft and/or make detailed comments that have
influenced the book's present form. I am deeply grateful to them, including
Frank Drake, Pearl Druyan, Lester Grinspoon, lrving Gruber, Jon Lomberg, Philip
Morrison, Nancy Palmer, Will Provine, Stuart Shapiro, Steven Soter, and Kip
Thorne. Professor Thorne took the trouble to consider the galactic transportation
system described herein, generating fifty lines of equations in the relevant
gravitational physics. Helpful advice on content or style came from Scott
Meredith, Michael Korda, John Herman, Gregory Weber, Clifton Fadiman, and the
late Theodore Sturgeon. Through the many stages of the preparation of this book
Shirley Arden has worked long and flawlessly; I am very grateful to her, and to
Kel Arden. I thank Joshua Lederberg for first suggesting to me many years ago
and perhaps playfully that a high form of intelligence might live at the center
of the Milky Way Galaxy. The idea has antecedents, as all ideas do, and
something similar seems to have been envisioned around 1750 by Thomas Wright,
the first person to mention explicitly that the Galaxy might have a center. A
woodcut by Wright depicting the center of the Galaxy is shown on the inside
front cover.
This book has grown out of a treatment
for a motion picture that Ann Druyan and I wrote in 1980-81. Lynda Obst and
Gentry Lee facilitated that early phase. At every stage in the writing of this
book I have benefited tremendously from Ann Druyan--from the earliest
conceptualization of the plot and central characters to the final galley
proofing. What I learned from her in the process is what I cherish most about
the writing of this book.