The Alchemist
by Charles L. Harness
This story copyright 1966 by Charles L. Harness. Reprinted by
permission of Linn Prentiss. This copy was created for Jean Hardy's personal
use. All other rights are reserved. Thank you for honoring the copyright.
Published by Seattle Book Company, www.seattlebook.com.
* * *
Andrew Bleeker, research director of Hope
Chemicals, had more than once referred to his laboratory as "the soap opera,"
"the sideshow," or "the country club." He took instant umbrage, however, if
anyone else ventured any jesting synonyms for his group of some five hundred
people in the cluster of red brick buildings at Camelot, Virginia. Ordinarily,
therefore, he would have been mildly incensed when Conrad Patrick, the Hope
patent director, stuck his head in the door and told him that a three-ring
circus was about to start down in Silicon Compounds, with Pierre Celsus in the
center ring. But the circumstances were not ordinary. For the past two days, at
the request of the United States government-- which, the Chairman
of the Board had bluntly reminded him, was Hope's biggest single
customer-- Bleeker had been turning the lab inside out for the
benefit of Alexei Sasanov, Minister of Technology for the People's Republic, and
for the past several hours had listened patiently to a comparison of decadent
American chemical research and burgeoning socialistic research. The interruption
offered a chance of respite, and his heart leaped. Nevertheless, appearances had
to be maintained.
"What's Celsus up to?" he growled.
"He's going to try to start the silamine unit," said
Patrick.
Bleeker's voice rose sharply. "Silicon
Compounds has been trying to start that crazy thing for two months. I told them
yesterday to junk the project. It's dead."
Patrick laughed. "Old projects never die. They just
smell that way."
Bleeker snorted. "How does Celsus
intend to do it?"
"He wants to try to synthesize
one molecule of silamine in the reactor. He says the reaction should be
autocatalytic, and once seeded, the fluidizer will start making more silamine.
There'll be a little picric acid in the receiver, which ought to throw down a
yellow silamine picrate within seconds, if it works."
"But that's idiotic! How can he seed the
reactor with one molecule of silamine when not one single molecule of silamine
exists anywhere on earth?"
Bleeker's distinguished
visitor spoke up. "I quite agree with Mr. Bleeker." On the face of a less
complicated man, the faint smile that played briefly about Sasanov's mouth might
have been interpreted as a sneer. "It is a technical impossibility. Our central
laboratories in Czezhlo have spent hundreds of thousands of rubles attempting to
synthesize silamine. We want it as an intermediate for heat-resistant silicon
polymers for missile coatings. We offered great incentives for success."
"And penalized failures?" murmured Bleeker.
Sasanov shrugged delicately. "The point is, where
the most efficient, the most dedicated laboratory in the world has failed, it is
hardly likely that a commercial American laboratory can succeed."
Patrick felt his red mustache bristling. He ignored
the warning in Bleeker's eyes. "Would you care to make a small wager?"
Sasanov turned to Bleeker. "It is permitted?"
It was Bleeker's turn to shrug. "You have diplomatic
immunity, Mr. Sasanov."
"So. A small wager then. If
you make any silamine, the People's Republic will give Hope Chemicals a contract
for a plant design, with handsome running royalty for every pound of silamine we
make."
"At twenty-five cents a pound," said Bleeker
quickly.
Sasanov thought a moment. "Exorbitant, of
course. But agreed."
"This will have to be approved
by Hope management," said Bleeker carefully. "We've heard complaints, you know,
about the... ah... slow royalty payments to other American firms who have
designed plants for your country in the past."
Sasanov spread his hands expressively. "Vicious
lies. Surely you trust the People's Republic?"
Bleeker coughed.
"This
contract isn't much of a stake," objected Patrick. "That's between your
government and the Hope corporation, not between you and me."
"Readily remedied," smiled Sasanov. "What is the
classic consideration in your English common law? A peppercorn, isn't it? Well
then, I offer the contract and a jug of vodka, to be sent direct to you here at
the lab, if I lose."
"Against the rules," said
Bleeker. "Spiritous liquors can't be brought into the lab."
"Make it sweet cider," said Patrick.
"Certainly, sweet cider," said Sasanov. "The best in
the world. Cider from your Winchester apples is a poor thing in comparison."
Bleeker set his jaw. "All right, your stake is a
contract and a jug of cider. What's our stake?"
"Our stake, Mr. Bleeker? I think Mr. Patrick
suggested the wager. The matter is, therefore, between him and me. And Mr.
Patrick can readily provide his stake."
"Such as
what," demanded Patrick.
"Your desk."
"My... desk?" repeated Patrick stupidly.
"You don't have to do this, Con," said Bleeker
quietly.
"Well, I don't know..." As Patrick
considered the matter, his throat began to contract. His desk was a "rolltop,"
over a hundred years old, and one of the few remaining in the country that had
never been used by Abraham Lincoln. It had caught his eye when browsing through
the junk shops of Washington, and its entire panorama of possibilities opened up
to him instantly. He bought it on the spot. He himself had carefully removed the
ancient peeling finish by dint of solvent, scraper, and sandpaper, and had then
slowly refinished it over a period of months. Finally he had moved it to his
office at the lab. The pigeonholes were semi-filled with rolled documents, bound
with genuine red tape that his London patent associates had found for him. He
had patinated the papers with a light layer of dust recovered from his vacuum
cleaner. His intercom and dictating machine were installed in the side drawers,
and a tiny refrigerator in the lower left-hand cabinet. A kerosene reading
lamp-- converted to fluorescent in the Hope maintenance
shop-- sat on the upper deck of the desk, and a brass cuspidor
gleamed in the lower right-hand cabinet. As a final touch, he had captured and
imprisoned one small, bewildered spider, who, after a shrug of its arachnid
shoulders, had gallantly garlanded a few of the more remote pigeonholes with
sterile, dust-gathering strands.
For a time,
Patrick's rolltop had been the talk of the lab; soon after its arrival dozens of
people found it suddenly necessary to confer with Patrick on all kinds of patent
problems. And now, even after the fine edge of novelty was gone, Hope people
visiting from out of town still came in to see it. More importantly, as Patrick
now realized with a chill, Comrade Sasanov, after his introduction to the patent
director on the first day of his visit, had since dropped in to Patrick's office
several times, for no apparent reason, and had stared thoughtfully at the desk.
There was no comparison between his desk and a jug
of cider.
Still, a man had to have faith. And he had
faith in Pierre Celsus.
"It's a bet," said Patrick.
* * *
The three men pushed their way through the
spectators surrounding Pierre Celsus and the silamine setup.
Celsus, a slight nervous figure, largely hidden in
an unlaundered lab coat, was evidently finishing up his preparations. He checked
the fluidizer, which was a two-inch-diameter glass tube about one-third full of
silica gel, then the Variac control on the resistance heater wound around the
tube, then the ammonia inlet at the bottom of the fluidizer, then the glassware
leading to the condenser-- a two-neck glass flask venting to the
hood. Finally he turned on the ammonia pre-heater and slowly opened the flow
meter. The silica gel in the column shuddered slightly as a "bubble" of ammonia
vapor forced its way up through the bed. Celsus opened the ammonia valve wider
and turned up the pre-heater further, his eyes flickering from the column to the
thermocouple readers and the flow meter and back again. Not once did he look at
that collector, where the ammonia flowing into the flask was already sucking the
water back, with intermittent gurgles, into the gas beaker. Finally he seemed
satisfied. He stopped adjusting things and stood back a moment.
Patrick heard strange sounds. Celsus was muttering
in a queer rhythm.
The room grew instantly still.
Patrick realized that the man was chanting... to
the equipment. The patent director tugged at his red mustache uneasily.
Goose pimples began to flow in waves over the nape of his neck.
Celsus now donned a pair of white asbestos gloves
and stroked the fluidizer column as he sang.
Bleeker
and Sasanov exchanged glances. Sasanov looked faintly bewildered. Bleeker felt
the same way, but was determined not to let it show.
Patrick looked about him. There were at least
fifteen people there-- group leaders and senior chemists, mostly. A
couple of people from his own department were there: Alec Cord and one of the
women attorneys, Marguerite French. They were both completely oblivious to him.
Marguerite was moving her eyes continuously back and forth between Celsus and
something metallic she held in her hand. Patrick recognized it with a start. It
was a stopwatch.
It then occurred to Patrick that
there was something strangely familiar in Celsus' urgent intonations, and in the
manner in which he stroked and caressed the equipment. But he couldn't quite
identify it.
Suddenly Celsus stepped back, right arm
raised, and cried: "Silamine! Exist!"
And instantly
Patrick had it. Celsus was like a "hot" gambler who had just thrown the dice.
Silent seconds passed, broken only by the shuffle of
shore as Bleeker and Sasanov edged in closer to the bench.
Patrick stole a glance at Marguerite French, who was
leaning forward as though hypnotized by the bubbling liquor in the collection
flask. Suddenly a yellow cloud appeared in the flask, and Marguerite's arm
jerked. Patrick knew she had pushed the timer on her watch. She looked down at
the watch, and her face began to turn white. Patrick, concerned, started over to
her, But just then, Bond, Silicon Compounds Group Leader, called out: "That's
enough! Let's take a sample for infrared!"
"Go
ahead, Prufrock," said Celsus.
A. Prufrock Prentice,
Celsus' technician, who until now had been hovering in the background, now
stepped forward, removed the vent assembly in the collector with a swift expert
gesture, and drew out a few cc. of the slurry with a pipette. He dropped the
sample into a bottle and then disappeared out the door.
Patrick forgot momentarily about Marguerite French.
He turned to the bemused Sasanov with a grin. "Efficient, aren't they? We'll
know in a minute what it is."
Sasanov shook his
head. "How can it be efficient when they were ordered not to do it?"
"You've got a point, Comrade," grumped Bleeker. "You
don't see them stumbling all over themselves on a scheduled run."
"Of course not, Andy," smiled Patrick. "But this was
a bootleg run. You ought to institute a required schedule of bootlegs."
"Bootlegs?" queried Sasanov. "What are these
bootlegs, please?"
"Just a decadent American
laboratory custom, Comrade. When you have orders to stop trying, but you know it
will work if you try one more time, then you just go ahead and do it. Sneaky,
isn't it?"
Sasanov sniffed.
Patrick was in high spirits. He looked about for
Marguerite. She had disappeared. That surprised him. After all that business
with the watch, didn't she really want to know whether Celsus had made it?
Or-- the thought hit him hard-- was she so sure he
had made it, that there was no point in staying for the i.r. report?
The phone rang. Bond grabbed it. The conversation
was brief. Bond replaced the phone and turned around, his eyes searching the
room. "Where's Pierre?" he demanded.
But Celsus,
too, had gone.
"Was it silamine?" called Patrick. He
turned to face Sasanov.
"It was silamine," said
Bond.
Sasanov's face was a mask. He bowed low to
Patrick. "I will send the contract and the cider, as soon as I arrive at the
chancellery in Czezhlo. And now, if you will excuse me, I have a plane to
catch."
* * *
The lab was the slave of fad and fashion,
and news of a new discovery flashed through the bays faster than the speed of
light and with an audience saturation that dwarfed Bleeker's Management
Bulletins. A new catalyst discovered in Inorganics in the morning was likely to
be warming up in the test tubes in Polymer that afternoon. A new herbicide found
effective in the Biology Bay in the afternoon would probably be followed up by a
new synthesis in Organics the next morning. Currently, however, thanks to Pierre
Celsus, the rage had now become that lovely child of the petroleum refinery, the
fluidized reaction, in which hot gases having composition A streamed up through
a turbulent mass of tiny catalyst particles, while simultaneously suspending
that mass, to emerge at the top of the bed with composition B.
During the entire previous year, there had not been
a single fluidized experiment at Hope. But within the hour following Celsus'
silamine run, Group Leaders were holding conferences behind closed doors with
their chief assistants as to how to reconstruct the chemistry of tried and true
reactions so as to make them amenable to fluidization. Overnight the senior
chemists were talking knowledgeably of "slide valves," "strippers,"
"regenerators," "standpipes," and "suspensoid"; and within a very few days they
would go on to "bed viscosity," "Nusselt number," and "voidage at incipient
slugging." The Library was promptly stripped of all books remotely touching on
fluidization, and even the "F" volume in the sacrosanct Kirk-Othmer Encyclopedia
disappeared from the reference shelves for several days. Miss Addie, the
librarian, posted stern notices on all bulletin boards. Overnight, the volume
was returned, sheepishly, by Andrew Bleeker.
Bleeker
didn't fight the new trend. He knew it would do no good, and besides, the new
thinking both intrigued and amused him. It intrigued him because it was a new
and potentially useful approach, not only for a silamine design, but also for a
number of other research problems of long standing. It amused him because he
knew from long experience that a number of project shifts would now be
inevitable. Programs on supersonic reaction initiation, free radical mechanisms,
photocatalysis, and selective adsorption would be quietly, even surreptitiously,
phased out. In some ways, his people reminded him of a cohesive group of
teen-agers, with the same compulsion to conform in dress, thought, and behavior.
The minority that he would force to continue on their old projects would
probably be apologetic to the lucky ones launching into the new fluidized
techniques. Bootleg runs meanwhile would become the order of the day, with
glassware fluidizers of all shapes and sizes springing up all over the lab like
wildflowers in May. He made a mental note to contact the Budget Committee
immediately for a decent bench unit. He had a good excuse. Sasanov had already
opened negotiations from Czezhlo. They'd be needing some good bench equipment in
a matter of days.
In fact, to handle the expected
volume of requests for bench runs, he might need as many as three
columns-- stainless steel, of course, twelve feet high, and heavy.
They'd need a basement foundation. There was just the place for them, downstairs
in Building V. He'd call it the Fluidizer Bay.
* *
*
Two days later
the Safety Committee investigated a minor explosion in Silicon Compounds. There
was no damage, beyond a wrecked hot plate, and nobody was hurt. As the Committee
noted in their written report to Andrew Bleeker, the explosion was the expected
result of an experiment by Pierre Celsus, done in the hood behind shatterproof
glass, all in approved and careful fashion. One gram of fulminate had been
heated on the hot plate to 145°C., then detonated-- by touching it
with a feathertip.
Explosions, controlled or
otherwise, made Bleeker uneasy. He called Bond on the phone. "What fulminate was
it?" he demanded.
"I don't know," said Bond
candidly.
"Find out," said Bleeker.
The group leader called back in a few minutes. "It
was gold fulminate." He sounded uncertain. "It's not a true fulminate, not a
salt of fulminic acid. It's made by reacting auric oxide, water, and ammonia.
When dry, it's highly unstable... detonates by light friction."
"Why was Celsus working with it? How does it relate
to anything in the silamine program?"
Bond coughed.
"I asked Celsus about that-- "
"And?"
"It has something to do with a new silamine
catalyst." Bond sounded defensive.
Bleeker started.
"Good heavens! Gold fulminate... a catalyst?"
"I don't think so. But I'm not really sure. As
Celsus explained it, the real catalyst won't be gold, but rather one of the rare
earth oxides. Terbium, I think. I know this sounds rather strange, Andy. It's
probably my fault for not understanding Celsus." Bond's voice trailed away
unhappily. "Sometimes, it's difficult to communicate with him."
Bleeker paused. Finally he said, "Let me know if you
find out anything further."
After he replaced the
phone, Bleeker began swinging his chair in slow oscillations, eyes narrowed and
brows knotted. "nobody," he thought grimly, "ever tells me anything." He swung
around toward the window. "And why? Because nobody in this lab ever tells
anybody anything. And it's getting worse every day. No organization. Maybe
Sasanov was right." He swung back around and stared through his open office
door. As he peered, he caught a serio-comic vision of the lights going out, one
by one, all over the lab. He suppressed a shiver.
*
* *
From test tube
to commercial plant at Hope Chemicals classically proceeded through four
well-defined steps. Step one was "in glass"-- generally with a
glass one-liter reaction vessel with a train of glass accessories, all stock
equipment, with parts out of the cupboard. Celsus' first silamine run had been
"in glass." Step two was the "bench unit." Nearly all parts were metal, and many
were specially designed or ordered out of the special chemical apparatus
catalogs. The bench unit was supposed to "prove out" and "optimize" the glass
setup. The pilot plant was next. From its operation the engineers were able to
draw up thermodynamic data and could analyze feed, recycle, purification, and
effluent streams, all of which were absolutely essential in designing a
commercial plant, which was the fourth and final step. Each of these steps was
vital and none could safely be omitted. They were links in a chain. If one
failed, the whole sequence of events came to an abrupt halt, never to be
revived. Although each phase was essential, everyone at the lab, from Bleeker on
down, knew very well that one certain phase was more essential than the others.
For sad history had shown that if a project were going to die, it nearly always
picked the bench unit for its coffin.
In his Monthly
Project Report on his work "in glass," the less experienced chemist might report
loftily that, although yields in glass were perhaps a little low, they could be
expected to improve with the adequate temperature control available in a bench
unit; or that by-product contamination would not be a problem in a bench unit,
where a purge would operate continuously. And then the bench unit would be
built, and he would have to eat his predictions on a stainless steel platter. So
chemists at Hope were generally quite chary of predicting the performance of a
projected bench unit. At best, they would answer Andrew Bleeker's inquiries
with, "It seems to have a good chance." "Certainly worth a try." "Something
similar worked at Du Pont."
Bleeker complained about
it to Patrick. "Weasel words! Nothing but weasel words! You'd think they were a
bunch of patent lawyers."
Patrick grinned slyly.
"Not all of them. Look up Celsus' Project Report on Silamine."
Bleeker did. His eyes nearly fell out of his head.
He read: "Yields were poor in glass because the
process was necessarily limited by the heat input. The reaction is extremely
endothermic, requiring a thermal outlay heretofore attainable only in nuclear
reactions. In the existing setup the necessary heat cannot be supplied through
the reactor walls because of the low heat transfer coefficient available for a
fluidized system. The same difficulty applies with respect to internal heaters.
Nor can the requisite heat be supplied by pre-heating the ammonia, since
NH3 cracks back to N2 and H2 at 600-700° C. The
only way to provide the necessary heat is to create it in situ on the
silica gel particles. This may readily be done by adding terbium oxide with a
little xerion to the silica. This system will, in fact, create a substantial
thermal excess, requiring a cooling jackets on the reactor. At the end of the
run-- disappearance of terbium-- spent catalyst, while
still wet must be immediately discharged into alkahest. Yield of silamine, based
on SiO2, should be substantially quantitative."
Bleeker shook his head vigorously, like a dog
shedding water. He studied the report again, as if hoping the words would
rearrange into sentences he could understand. But there wasn't any change.
The Research Director reflected a moment. Should he
ask Celsus to report and explain? Celsus, being a senior chemist, had no group
leader, and instead reported directly to him, Bleeker. Yet, somehow, he felt
that any such conference could only lead to further confusion. But now a crafty
thought occurred to him.
The Patent Department. It
was the job of the patent attorneys to understand these new inventions. They
were supposed to file on important cases within a few days after the thing had
been reduced to practice. The application had to explain the invention in
intelligible terms, or else the Patent Office in Washington would rule the
disclosure fatally defective. There was certainly no dishonor in asking the
attorney in charge of this invention to step into his office and explain Celsus'
report. It would be like the judge in a trial asking the court reporter to
repeat some testimony the judge had missed. And no need to bother Con Patrick.
He buzzed his secretary: "Miss Sally, look at the
Patent Department organization chart and get hold of the attorney responsible
for Pierre Celsus' work. But don't bother Mr. Patrick."
As events developed, this was a mistake. While the
Patent Department organization chart clearly showed that Alec Cord handled the
inventive affairs of Pierre Celsus, Cord happily informed Miss Sally that all
that had changed. Somebody else was now responsible. Additional phone calls
established the apparent fact that, for the moment, at least, nobody was writing
cases for Celsus.
This puzzled Bleeker. He knew that
Patrick loved order, organization, and the predicable flow of life, and that
when Patrick had taken the Patent Department of Hope Chemicals, he had drawn an
organization chart to define precisely the areas of contact of each of his
attorneys with each group in the Research Division.
This was all very true; in fact, during the early
days Patrick had kept the chart current, showing every assignment change. But
Patrick had been in office less than a year when the Nitrogen Group had their
breakthrough in acrylonitrile, and it had been necessary for him to reshuffle
all Patent Department assignments drastically until he could get the Nitrogen
docket back to normal. While the dust was settling, Research formed the new
Polymer Group, and the Budget Committee-- after much muttering and
review of Patent Department efficiency-- finally let Patrick hire
two new attorneys for the new Group. Meanwhile, Foams and Fibers were screaming,
so one of the new polymer attorneys was assigned to them. And then Nitrogen
insisted that Cord be assigned to them permanently, because he was the only man
in the lab who could beat Dr. Fast at the chessboard-- it being
well known that Fast would talk about his inventions only in a losing position.
The second new polymer man got clewed in to Mining and Metallurgy on an
emergency job when it was discovered that he had worked summers on a barytes
washer in Missouri. When he finished the emergency case, M & M refused to
release him.
And that was when Patrick stopped
revising the chart. From then on he kept everything in his head, like a general
in the midst of shifting battle lines. He developed an exquisite facility in
matching attorney to project, project to attorney, attorney to inventor. His
manning assignments never failed. Except for Pierre Celsus. Nobody could
understand Celsus. His few cases had been written personally by Patrick.
Bleeker discovered all this in slow fragments. Then
he put in a call for Patrick.
* *
*
After ten minutes
in Bleeker's office, Patrick finally convinced him he knew no more about
silamine than the research director. Following which, point by point, sentence
by sentence, they went through the Project Report together.
"And listen to this," groaned Bleeker. "He's
proposing some kind of dispersant for the residual silica."
"Why would he need a dispersant?" asked Patrick.
"Why not just flush it direct to solids disposal?"
"I haven't the faintest idea. But that's not my
point. Listen to what's in it:
Vitriolated tartar
Butter of antimony
Libavius' fuming liquor
Sal mirabile
Magnesia
nigra...
And the whole thing, he
calls"-- Bleeker looked at the report-- "the
alkahest." He looked up helplessly at Patrick. "What is the man
talking about?"
"Alkahest?" Patrick looked
troubled.
"Maybe I'm not pronouncing it right."
"No, you had it right. Except-- I
thought..."
"You thought what?"
"The term hasn't been used in earnest in over five
hundred years. It's an alchemical term. It means 'universal solvent.' It
dissolves anything you put it in."
"Alchemical?
Solvent?" Bleeker looked blank.
"It might really
dissolve the silica," ventured Patrick. "although I can't see any reason why it
would be necessary, technically."
"Alchemy..."
muttered Bleeker. "What century does he think this is?" His chair began to swing
slowly. "That man needs help. He ought to see Siegfried Walters."
"I understand he's been in therapy with Walters for
some months," said Patrick. He added quietly: "Does this mean you won't approve
the bench run?"
"No. It doesn't mean that. I'm going
to approve it. In fact, the Board of Directors insists that we develop a process
we can sell to the People's Republic. That twenty-five-cent royalty has them
hypnotized. Anyhow, the new Fluidizer Bay will be finished in a few days. The
runs can start then. Put one of your best men on it. If it works, get a case
file as soon as you get that madman translated into basic English."
"Of course, Andy."
"And
now," said Bleeker, "what do I do with Celsus?"
"Nothing," said Patrick. "Leave him alone. Maybe you
and I don't have what it takes to understand him."
"Nor does anyone else," declared Bleeker. "And
that's the whole problem. Any chemist in corporate research has got to be one
hundred per cent clear to the rank and file that have to translate him into a
tonnage plant. His thinking has to be something our run-of-the-mill people can
take and break down into its elements, its unit processes."
"I think he's some kind of a genius," said Patrick
stubbornly.
"Maybe he is, but in this business, his
kind of genius is not an asset, it's a disaster. What happens when he explains
something? Do you understand it? You do not. I don't understand it. Nobody
understands it. A few days ago he made the silamine process work for the first
time. Four separate teams had already given up. And how does he explain it?"
"He just needed one seed molecule to initiate it,"
said Patrick. He added, quickly, "And don't ask me where he got it."
"But I will ask you. Where did he get
it-- a thing that had never before existed?"
Patrick shrugged his shoulders helplessly.
"Maybe you're right," said Bleeker thoughtfully.
"Perhaps we're not mentally equipped to understand him. Perhaps we should
examine our own capacity for comprehension of novel technology. It's like
Willard Gibbs and the phase rule. He published in 1876, but nobody in America
was capable of understanding him until Ostwald explained him in German. For a
long time, if you couldn't read German, you couldn't understand the phase rule.
Is something like that happening here? Maybe we can't be communicated
with. Maybe we need to be examined. There are firms that do that, you
know-- management evaluation firms... research evaluation firms."
Patrick nodded absently. "Suppose he has something
the rest of us don't have-- but we just won't let him use it. We
don't know how to listen to him. We see him as a freak. Are we
freaks to him?"
"But alkahest, Con,
really. I suppose next we'll get a Project Proposal for making gold." He
shook his head. "All I remember about alchemy was my undergraduate course in
History of Chemistry, at State U. Frederick of Würtzburg reserved a place of
distinction, a position of great elevation, for each and every alchemist who
visited the realm."
"What was that?" asked Patrick.
Bleeker said grimly: "The highest gallows in all
Europe."
* * *
When Patrick had gone, Bleeker sat swiveling
slowly at his desk for a long time. Was Sasanov right? Maybe the lab was
a little disorganized. Something was wrong, out-of-joint. Was it Celsus?
The administration?
Bleeker prided himself on
knowing everything that went on in his laboratory. (He almost did know.) He knew
who was coming up with the ideas that might be commercial five or ten years from
now. He knew the misfit who would have to be reshuffled. But no matter how bad
the incompatibility, in the past his operations were big enough to find
something which, if it did not completely match the talents of the transferee,
at least kept him at something useful to the company and to himself.
But now, for the first time in thirty years, he felt
truly baffled. Sasanov, he suspected, would never encounter this problem, or, if
he did, it would be solved with prompt and drastic measures.
Bleeker chose a different way, gentler, but equally
definitive.
He buzzed his secretary. "Miss Sally,
get me Arnold Gruen, Gruen Associates," he said grimly.
*
* *
Later, he explained it all to Patrick.
"Gruen Associates is unique in several respects.
They're the oldest in the business, for one thing. For another, right now
they're the only management-survey group equipped to look at research labs,
although I dare say it's just a question of time before they lose that
monopoly, what with so many billion dollars being spent on research in this
country every year."
"Gruen is unique, you were
saying?" nudged Patrick gently.
"I was explaining
that," said Bleeker testily. "Well, Gruen brought in another outfit to study
them, show them how they could tighten up their analysis techniques, rely on
smaller samples, reduce study time and the overall cost of their surveys. Sort
of like a psychiatrist getting himself psychoanalyzed, so he'll be a better
doctor. Well, Gruen had this done to them, and they seem to be the only
surveyed surveyors in the business. That's how they developed their 'Unit
Profile,' where they pick one man who has nearly all the faults of the research
laboratory they're trying to correct."
"But wouldn't
it be still better," said Patrick blandly, "if we could be surveyed by a
group who had been straightened out by Gruen? Then we'd be surveyed by a
surveyed surveyed group. Hope uses only the very best, you know."
"The point came up." Bleeker was equally bland. "But
good sense prevailed."
Both men were silent a
moment. Each seemed to be waiting for the other to speak. Patrick knew then that
the same thought must be on Bleeker's mind. So Patrick, being the junior, said
it. "What happens when they find Pierre Celsus?"
*
* *
The first
session with Gruen Associates took place in the Executive Dining Room, an
intimate, expensively appointed room down the hall from the large lab cafeteria.
Patrick had long ago noted that Bleeker liked to
conduct important discussions at the luncheon table. The theory was that Yankee
pot roast following cocktails loosened a man's tongue and evoked basic truths,
or at least turned up any latent disagreements, all of which might require
excessive time and money to discover in other ways. Furthermore it was the
simplest and quickest way to get to call a man by his first name, and everybody
agreed this helped communication and delayed the development of paralyzing
differences of viewpoint. But whatever the reasons, Patrick always liked a good
meal with experts in their own fields.
While coffee
was being poured, they finally got down to business.
"I want to make one thing clear," said Bleeker.
"This is not a criticism of anyone, except possibly myself. Arnold Gruen and his
people are here to determine whether I can improve the operation of the lab.
Arnold's staff, Joe and Ben, here will come in, starting tomorrow, and they'll
be talking to a number of us. They'll talk to all our group leaders and to a
number of our chemists and technicians at all levels. They'll make appointments
ahead of time. Work them in, somehow. Within a few weeks, Arnold will put
together a report and then I'll decide whether we ought to change some of our
procedures. Arnold, perhaps you can explain the mechanics of your survey,
exactly what you intend to accomplish, and how you will do it."
"Of course, Andy. It's really quite simple. We at
Gruen have one basic objective-- increasing the dividend to the
shareholders. We continue to exist because we have been able to help our clients
meet this objective. Now, there's a fundamental corollary to our main objective,
and that is, that industrial research, such as you have here at Hope, exists for
the sole purpose of making money for the company, and to make this money as
quickly as possible. To accomplish this, every man in the lab must recognize
that he is part of a team. No man in a modern laboratory can work alone.
He must recognize roadblocks instantly, and call in help immediately. He must be
able to analyze and explain, or his project will bog down. He must
communicate. That's the key word: communicate. And it must be
instant." He turned to Patrick. "Con, your department has a vital
function in all this. The life of a United States patent is seventeen years. Our
studies show that, up until recent years, only the last five to seven years of a
typical patent are of any use in protecting a basic new invention. Why? Because
it so often takes ten to twelve years to proceed from the first experimental
work to the first commercial plant. One of our aims is to cut this idle patent
time. We do this by cutting the development phase to three years." Gruen took a
sip of coffee and smiled. "Do I hear incredulous murmurs? I repeat: three years.
It can be done. And it's all in communication. Everybody knows what
everybody else is doing. Problems will be recognized instantly. But here I am,
still talking in generalities." He turned to Kober. "Ben, will you explain what
you and Joe Marel are going to do, starting tomorrow?"
"Certainly, Arnold. My function-- and
Joe's-- is to interview some of your key people. We've already
drawn up a list. This was based on a study of several hundred project reports
written by approximately fifty different bench chemists, senior chemists, and
group leaders. Con, we'll include one man in the Patent Department, probably
you. We will interview each of these people. As a result of these interviews we
will develop a further sampling of six or eight chemists who offer most in the
way of a challenge to the Gruen technique. We will then hope to be able to boil
this list down to one man. This man, if our survey is valid, will constitute a
walking summary of all that we hope to recommend be corrected here."
Arnold Gruen looked over at Patrick. "You lawyers
have your 'reasonable man'. We are looking for the 'unreasonable man': a
compendium of errors-- our Unit Profile."
"Profile?" asked Patrick. "You mean something like
the Bernreuter or Thurstone personality profiles for executives?"
"Something like that," said Gruen. "Except that the
Bernreuter profile provides a positive model for the up-and-coming
executives of our large mail order houses-- a real inspiration,
too, if I may say so!-- whereas the Gruen profile is
negative. When we establish it, we offer it to the client as something to
be shunned by all right-thinking employees. Another difference is, the Gruen
profile is personified; it is drawn from one actual man, a case history. In
fact, our main effort in the study is to find that man." He nodded toward
Bleeker. "And when we find him, our bill for services will follow shortly."
* * *
Patrick was eternally amazed by his women
attorneys. Marguerite French was a case in point. Hired fresh out of State U.
with straight A's in chemistry, he had first put her on novelty searches in the
Patent Office in Washington. She had picked up the patter almost overnight.
("I'll be in the stacks tomorrow, Mr. Patrick, flipping the bundles for that new
polymer." But when she dictated her search report, she had the good sense to
call it "information retrieval.") She soon knew the Patent Office Search Manual
by heart, and better still, most of the chemical patent examiners on a
first-name basis. They told her what subs to check in the Search Room and
pointed out unofficial "shoes" in their own offices that cut her search time to
a minimum. Examiners had been known to hover over her shoulder, helping her
through their soft copies, to find a "dead reference."
A couple of years after hiring her, Patrick learned
by accident that she had passed the Patent Agent's exam-- the
dreaded patent Bar-- on her first try (Patrick had failed it the
first time) and was halfway through law school at night. That was when Patrick
started her on writing patent applications. In good time she had finished law
school and had become a full-fledged attorney, in most respects as good as any
of his men, and in one particular respect she excelled any man in the
department. This was her ability to work with certain of the more refractory
male chemists. Whatever their inability to write an intelligible project report,
she somehow was able to analyze, define, and summarize the most involved
reactions that any of them ever brought forth. When working with her, they
suddenly became expressive, articulate, even voluble. ("Maybe they're all in
love with her," mused Patrick. But that was too simple. "She's a kid sister to
them," he thought once. No, that wasn't it, either. "She appreciates them." Yes,
he felt he was getting warm.)
Well, no matter what
it was, he had made up his mind as to who was to be assigned to Pierre Celsus.
If Celsus could be persuaded to talk to anyone, he would talk to Marguerite
French.
* * *
Patrick drew the structural formula on his
office blackboard. "Silamine. As you probably know, Celsus' new synthesis is
somewhat analogous to the commercial process for making urea from ammonia and
carbon dioxide, except that we use SiO2, instead of CO2.
In other words, we react ammonia and silica, and we get silamine and by-product
water."
"It's strange that it should react at all,"
said Marguerite. "Silica is one of the most unreactive oxides known."
Patrick smiled. "That's the general impression, all
right, and that's why we think we may have something patentable. Actually, we
don't use plain old silica sand-- the low surface area makes it too
inactive. We use an extremely porous, high-surface-area silica, five thousand
square meters per gram. That means a thimbleful-- if you could
spread it out-- would cover two or three football fields. And this
means that it is thousands of times as reactive as sand, because a given weight
of high-surface-area silica can make contact with thousands more ammonia
molecules than plain sand."
"I gather there's more
to it than that. Certainly ammonia and high-surface-area silica have been
brought together before without making silamine."
"Yes, Marguerite, as you very well know, there's
more to it than that. Firstly, the silica contains a new catalyst, terbium
oxide, one of the rare earths. Celsus proposed this after his first successful
run, back in Silicon Compounds." He looked at her. "You were there."
She replied noncommittally. "Yes, I was there."
Patrick sighed. She was not going to volunteer
anything about the stopwatch. In a little while, he'd have to ask her.
He continued. "Next, Celsus adds a thing he calls
'xerion'."
"'Xerion'?"
"Don't ask me what it is. Some kind of co-catalyst,
I think. It's your job to find out. Celsus contends his new system provides
extremely high temperatures right in the fluidizers, so much heat, in fact, that
the columns have to be cooled. He cools by heat-exchanging with incoming liquid
ammonia, which goes next to the base of the columns, where it serves as both
reaction gas and suspending medium for the silica gel."
"What happens to the by-product water?"
"Some gets stripped out with silamine product, but
some stays on the silica. Celsus seems to think it's very important that some
stay on the silica. He wants the silica to be 'wet' throughout the reaction. I
don't know why. Again, this is something you should ask him about. Also, he runs
the residual silica into a tank of something he calls 'alkahest'--
some kind of solvent or dispersant. Find out why the stuff can't simply be dried
and carted off to waste. Is it dangerous, or what?"
Marguerite looked up from her notebook. "There's
still one very basic thing I don't understand. This terbium-xerion thing... how
does the combination make heat?"
Patrick shrugged
his shoulders helplessly. "You'll have to ask Celsus."
"Do you think he will tell me any of this?"
"I don't know, Marguerite."
"What about his Project Reports?"
"He's made several. They're all different. But don't
try to reconcile them; it's impossible. So it boils down to this: Celsus knows,
or thinks he knows, how to make the thing work. But he hasn't been able so far
to explain it to his own people. This is where you come in. Defining technical
data is your job, as a patent attorney. You're better at it than his brother
chemists. Also, you'll bring a new outlook."
Marguerite French closed her notebook. "Is that
about it?"
"One more thing." Patrick eyed her
speculatively. "The other morning, at that first silamine run, you had a
stopwatch. What was all that about?"
The girl
hesitated. "I don't think you will believe me."
"Tell me anyway."
"I
timed the reaction. With the stopwatch. All I had to do was calculate the space
velocity of the ammonia. From this you get the time it took to move the first
silamine product from the reactor to the collector, where it immediately gave
the picrate test. This was 38.6 seconds. When Pierre called on the silamine to
exist, I started the watch. When the picrate showed, I stopped it." She opened
her purse. "I've been carrying it around-- it's still stopped. I
don't know what to do with it. Suppose you keep it a while." She handed the
watch to Patrick. He took it dubiously. It read 38.5 seconds. Experimental
error? Not, he suspected, Pierre Celsus'.
"I think
it was telekinesis," said Marguerite.
Patrick
studied the girl with widened eyes. Her face was pale, but she was staring back
defiantly. The man tugged at his mustache, his brows creasing. He remembered
Celsus' behavior at that now notoriously successful run, crooning, whispering,
exhorting, caressing the flask. Like a "hot" gambler talking to the dice. And
then the throw. Some gamblers were supposed to have this power, this control of
inanimate matter. TK. Psi.
He said hoarsely, "Is it
possible?"
"I think it is. With some chemists.
Pierre isn't the first. He won't be the last. If he's different, it's only
because he can do it better, and because he knows what he can do."
Patrick's mind raced ahead. The implications... were
staggering. He suppressed a shiver. "But that isn't chemistry. It isn't science.
It may even be against the law."
"It was the
first chemistry," said the girl curtly. "It is alchemy."
"Now wait just a minute," protested Patrick,
struggling back to former ground. "If Celsus were a real genuine alchemist, he'd
be making gold, wouldn't he? Is he making gold? Of course he's not. But again,
suppose he could make gold, how would you explain it to the United States Mint
and the FBI?"
"You miss the point entirely," said
the girl. "He's not trying to convince anybody he's an alchemist. It's the other
way around. He's trying to hide it. He wants to be just a plain ordinary
twentieth-century chemist. If he could make gold, he'd keep it a secret. So it's
pointless to argue that since he hasn't made any gold, he's not an alchemist.
The alchemist uses his powers to supply the requirements of his patron. In the
fifteenth century, the big requirement was gold. In a modern laboratory, it
could be anything from plastics to lasers to silamine. And finally, what's so
wonderful about gold? Today dozens of fine chemicals sell at more per ounce than
gold."
The man groaned. "But the patent
application... what will the Patent Office do when we file an application an
alchemical process? And how will the main claim read? Can we say, 'In the
process of reacting silica and ammonia to form silamine, the improvement
comprising telekinetically first forming one molecule of silamine, thereby to
autocatalyze the reaction'? How is that going to sound to the Examiners in Class
23?"
"It is sufficient if those skilled in the art
can reproduce the invention," said Marguerite. "Maybe that means other
alchemists."
Patrick fought for control over the
gurgle rising in his throat. "Others? God forbid!"
The girl waited in quiet sympathy.
At last Patrick said lamely, "Well... see what you
can do-- "
When Marguerite had gone,
Patrick sat staring at the pigeonholes of his desk and tugging glumly at his
mustache. There wasn't anything he could do. He couldn't go in to Andrew Bleeker
and say, "Andy, your man Celsus has TK. He's a psi. And that's why he got
silamine, and that's why his processes are not reproducible." Patrick shook his
head sadly, remembering what Bleeker had said to the applicant from California
who claimed he had seen a flying saucer.
The
intercom shattered his musings. Joe Marel of Gruen wanted to interview him.
* * *
Joe Marel stared at the rolltop desk for
several seconds.
Patrick said finally, "You wanted
to review some Patent Department procedures, you said."
"Oh, of course. Forgive me for staring. I've never
seen anything quite like it-- the desk, I mean."
"Biggest phony in the lab," said Patrick genially.
"I wouldn't know. Well, suppose we start with your
infringement opinion on the new silamine process."
"Certainly."
"You say
here, 'This patent does not present a serious risk of infringement.' Do you mean
it is not infringed?"
"Not exactly. No one can
predict with certainty what the courts will do with a given patent. It's always
a guess. We simply try to assess the degree of risk."
Marel looked at him curiously. "You mean, then, it's
probably not infringed?"
"In a sense, yes.
But bear in mind, it's not a thing that admits of calculating percentages."
"But I gather that when your management reads that,
they will understand that the patent situation is in the clear?"
"Well, not inevitably, and not necessarily. But it
very well could have that affect."
Marel was
silent a moment. He ran his finger around his collar, then continued. "Well,
then, you go on to say, about another patent, 'At the appellate level, the
defense of patent invalidity would probably be affirmed.' Does that mean the
patent is invalid?"
"No, here again we simply try to
crystal ball what the courts will do with a given patent question. No lawyer can
advise his client whether a patent is valid or invalid. Only the courts can do
that. If the courts have not spoken, then at best the lawyer can only state how
he thinks the courts would rule, if and when they should get the question. And
you realize, of course, that the courts in different federal circuits could come
up with different answers. The patent could be held invalid in Maine, but valid
and infringed in California. And then there are other reasons we might not want
to come right out and say a patent is invalid. For example, some day we might
buy the patent, and then we might want to continue the litigation, except that
we'd now be on the other side."
Marel blinked his
eyes rapidly. At last he said: "Then why not just pick up the phone and tell
whoever in management wants to know? Why have a written opinion at all?"
"Oh, there has to be a written
opinion-- something for dozens of people in Hope management to look
at, as well as people outside. Banks and insurance companies that provide the
financing for the proposed new plant-- their lawyers want to
see the patent opinion. Now, lawyers have their own special language when they
talk to each other. They never say 'yes' or 'no.' If our lender's lawyer gets an
opinion that says 'yes' or 'no,' he might regard it as incompetent, and then we
might not get the financing. The same thing is true for our own sub-licensing.
When we sell the process for use in England or West Germany or Japan, or
wherever it may be, we have found that their lawyers place more
confidence in one of my twenty-page opinions than in a categorical clearance
from the President of Hope Chemicals."
"I see. I
mean, I think I see. You mean you can't just say 'yes' or 'no'...?"
"Exactly," said Patrick. "Too deceptive, by far.
Wouldn't be cricket." He became expansive. "'Yes' and 'no' are the two most
dangerous words in the English language. Each inherently means something that is
by definition impossible. Each, as ordinarily used, is accompanied by a
protective cloud of implied qualifying conditional clauses. Problems arise when
the speaker and his listener fail to achieve a coincidence in qualifications
implied and qualifications inferred."
Marel shifted
nervously.
Patrick continued, "Now that you are
studying patent opinions, perhaps a little basic theory is in order. To start
with, what is the object of a good patent opinion?"
"Tell me," said Marel.
"The object is," said Patrick, "that the opinion
turn out to be correct, no matter what happens after it is written. Is the
company sued for infringement? The opinion says this is a possibility. Do we
lose the suit? We said that our chances were better than even. They were, but we
provided for the possibility of loss, because 'better than even' could
mean only fifty-one percent-- in other words, we should expect to
lose nearly half of such cases. But then we take a final appeal, and win. In the
opinion we find our conclusions apply to decisions at the appellate level. And
of course, there's a strong suggestion in the opinion that we settle on a
reasonable basis if we get into real trouble."
Marel
stared at the patent director in fascination.
Patrick continued smoothly, "In other words, as
history unfolds, day by day, and month by month, you should be able to reread
the opinion and find that nothing in it is inconsistent with subsequent events.
In this sense, it should resemble a prophecy out of Nostradamus, which becomes
completely clear only after the occurrence of the prophesied event."
"I guess that's why most people find a patent
opinion hard to read," said Marel.
"Granted," said
Patrick. "However, let us not confuse readability with clarity. Actually,
there's generally an inverse relationship: the more readable, the less precise;
a real literary masterpiece is so honeycombed with ambiguities as to be
incomprehensible. Take Coleridge's Kubla Khan. Would you consider that a
masterpiece?"
"Certainly."
"But can you tell me where the dome was going to be
built?"
"The dome? Oh yes, the pleasure dome. How
does the thing go?"
Patrick quoted from memory:
"'In Xanadu did Kubla Khan
A stately
pleasure-dome decree:
Where Alph, the sacred river, ran
Through caverns
measureless to man
Down to a sunless sea.'
"Now,
then," said Patrick, "where was the dome to be built?"
"In Xanadu," said Marel.
"Then where was Kubla Khan when he decreed the
dome?"
"Oh. In Xanadu? I see the problem. Well, then
the dome must have been on the Alph River."
"It's a
long river. Where on the river? In the caverns?"
"I
shouldn't think so."
"Nor on the shores of that
sunless sea?"
"Probably not."
"You see my point, Joe. In the arts, when a thing is
incomprehensible, it helps it to be a masterpiece. But not in the law. If a
lawyer had written 'Kubla Khan,' these ambiguities would never have cropped up.
He would have made the thing crystal-clear."
"No
doubt," smiled Marel. "Con, what does Andy Bleeker do when he gets your patent
opinions? Say, like this silamine opinion?"
Patrick
looked at Marel carefully. He said: "You raise a very interesting point. He's a
very busy man, you know... excuse me, I think this is Bleeker on the intercom.
No, don't leave." He flipped the switch. "Yes, Andy?"
Bleeker's voice came in strongly. "Con, this
silamine opinion... I don't know when I'll get time to go over it thoroughly.
Just tell me whether we're clear or not."
"We're
clear, Andy."
"That's what I thought. Thanks, Con."
The intercom went off. Patrick looked at Marel. "It
was a masterpiece," he said coolly.
* *
*
An hour after
Marel left Patrick, the patent director got another call from Bleeker.
"Con, I thought you'd be interested. Marel and Kober
are sitting here with me. They think they've found their man for the Profile."
"So soon? I didn't realize they'd already
interviewed Celsus."
"They haven't. But they see no
need to continue the study."
"Why that's fine... I
guess." Patrick was puzzled. "Who is he?"
He heard
Bleeker exhale slowly.
"It's confidential. However,
Con, I'm suggesting to Kober and Marel that they skip the patent department in
their survey."
"I'm sorry to hear it, Andy. We'd
hoped to get a lot of help from them."
"It could run
into a lot of time and money," said Bleeker., "also, I'm not sure they have the
necessary background to study... a patent man."
"That's a shame," said Patrick. "I liked Marel."
"He likes you, too, Con. In fact, you... ah...
fascinate him." Bleeker's voice seemed to lose strength.
*
* *
"Will you explain to me, Pierre, why you use
so many words that are not in the dictionary?"
Celsus looked at Marguerite in surprise. "Not in the
dictionary? Such as what?"
"Such as 'xerion'."
"Hm-m-m. Let's see." Chin in hand, Celsus studied
the volumes in his little book case. "Let's try this one." He pulled down a
worn, leather-clad tome and opened it carefully. The pages seemed yellow and
brittle, and many had evidently been patched with transparent tape. "Doesn't
seem to be here." He flipped back several pages. "Let's try it by the modern
name, 'elixir'. Ah, just as I thought. 'Elixir' is from 'al iksir,' Arabic, and
'iksir' is from 'xerion,' Greek. That's the Alexandrine Greeks, of course, and
I'm sure they got it from the Egyptians." He looked up brightly. "So
'xerion' is the same as 'elixir'. I'd forgotten they'd changed over, after
Avicenna."
"May I see the book?"
"Sure." He handed it over.
Alchemyia collecta, read Marguerite, looking at the
frontispiece. "By Andreas Livau." Her eyes widened. "It was printed in 1595...
and it's all in Latin."
"Why, yes. One of the old
standards. Still very useful, though."
"It must be
worth a lot of money." She handed it back slowly. "Now we're down to 'elixir,'
at any rate. What's 'elixir,' Pierre?"
"Why, I
thought every chemist knew that, Marguerite. 'Elixir' is the exactly
correct union of the four elements: the body-- as represented by
copper and lead; the spirit-- as represented by mercury; the male
element; and the female element. Some of the philosophers added gold, but I
think that rather begs the question, doesn't it?" He looked at her expectantly.
"Pierre, you're making me feel very stupid. What
does it do?"
"Why, it causes the reaction, of
course."
"You mean it's the catalyst?"
"Well, not exactly. It would be more accurate to say
it causes the silicon and terbium to react to provide the necessary reaction
heat. The atomic number of silicon is fourteen, terbium is sixty-five. Add them
together, and what do you get?"
"Seventy-nine?"
"Quite right. Terbium, at sixty-five, is only fair.
It's not even a prime. Seventy-nine is perfect. It's a prime, a favorite of
Pythagoras, and even though it's a rather low isotope, it's a sure thing for
quantitative yields of silamine. Does that clear it up?"
The girl sighed.
"I like
talking to you, Marguerite," said the man. "I'm glad Con Patrick has finally got
a patent attorney who can understand real chemistry."
Marguerite looked at him quizzically. "Pierre, I'm
glad you like me, because I like you, too." She measured her words carefully.
"Would you come over to my apartment for supper some evening?"
The man looked at her in amazement.
The girl continued hurriedly. "I'm a wonderful cook.
We could talk and play records. But you don't have to, of course..."
"Oh, no-- it's a wonderful idea. I've
never been to... I mean, I never had an invitation before... What I mean, is,
I'd love to. When?"
"How about tomorrow evening?"
"But that's the first shift run on silamine."
"Did they ask you to be there?"
"No, but I think I ought to be."
"Pierre, there's a rumor going around. Ben Kober is
trying to persuade Mr. Bleeker to let him make that first run, all by himself."
The man frowned. "You mean... they don't want me to
be there at all?"
"They don't mean it that way,
Pierre. They don't mean to slight you. Ben simply wants to check out the
process. He wants Analytical to stay open all night, for sample analysis."
Celsus caught his breath. "Samples of what?"
"Why, silamine product, I suppose. Is anything
wrong?"
"No, not if that's all they're doing." He
exhaled slowly.
"There's no danger in any of it, is
there?" insisted the girl.
"Not if they follow the
flow sheet."
"I'm sure that's exactly what they
intend to do. See you tomorrow night?"
"Sure thing."
* * *
The next day Patrick got another call from
Bleeker, this time to report to Bleeker's office, to review a problem with Ben
Kober of Gruen.
As was his way with anything
unpleasant, Bleeker got to the point at once. "Con, the Gruen
people"-- he nodded toward Kober-- "have made a
tentative selection for their Unit Profile. This time I agree with them."
Patrick pulled out his meerschaum, filled it
expertly from his pocket pouch, and fired up. He puffed and waited. He did not
intend to make it easier for the older man.
Bleeker
took this all in. He smiled faintly. "It's Celsus."
"But tentative?" said Patrick.
Kober answered. "We're pretty sure. But we want to
do one more thing. We want to take one of his projects and make it work all by
ourselves, simply by following his written instructions. He will not be
present."
"Have you picked a project?" asked Patrick
quietly.
Kober looked at Bleeker.
"There's really only one," said the research
director. "Silamine."
"In the new Fluidizer Bay?"
asked Patrick.
"Yes."
"How am I involved?"
"Your man in the patent department and Ben Kober
will both be trying to develop the identical information. Each will be trying to
extract from Celsus the explanation of the silamine reaction. But there's a
basic difference. Your man-- "
"Marguerite French," murmured Patrick.
"Ah, yes, Miss French. Good man. Well, she'll be
talking to Celsus on the theory he can and will explain the process. Kober will
be talking to Celsus on the theory Celsus can't or won't explain anything. Each
will be a check on the other. Both cannot be right."
Patrick groaned inwardly. He could not say it, and
yet it had to be said, here, now, before this thing got out of hand. "Just
suppose it's something not in the books-- something Celsus can do
but can't explain to anyone else how to do."
"Like
what?" said Kober.
"Like telekinesis!" blurted
Patrick. "Psi..." He blushed easily, and he realized with hellish discomfort
that he was blushing now.
Kober stared at him in
unabashed amazement.
Bleeker swiveled mercifully
around and looked through the office window.
Kober
gave a short embarrassed laugh. "I don't think you need me anymore. If you'll
excuse me..." He left quickly.
Bleeker turned back
to the patent director. He began swiveling in slow unease. "Con, I appreciate
your telling me your views, especially in front of Kober." The monotonous
oscillations continued. "However, please understand me. I cannot accept psi as
an explanation. That's as bad as alchemy; we've been through all that. To put
the matter even stronger: even if what you say is true, I couldn't accept it as
any part of our normal research effort. Maybe psi is all right for esoteric
seminars at the universities, where they don't really bother anybody. But it is
not all right in a modern chemical laboratory. How could we put twenty million
dollars in a silamine plant, when start-up depended on the availability of
Pierre Celsus? And suppose we went through with this plant design and license
with the People's Republic? Could we give plant guarantees? What if we truly did
have to have some hocus-pocus from Celsus to get the plant on stream? Are we
sure we could deliver Celsus on twenty-four hours' notice? And if we couldn't,
would we be protected in our Force Majeure clause? Is Celsus an Act of God that
relieves Hope of liability?" Bleeker leaned forward and looked at Patrick
earnestly. "Con, this is madness. Don't even think about it anymore. It
can't be psi."
"It has to be,"
insisted Patrick. "It was impossible, until he made it work."
The research director stared hard at Patrick. He
said finally, "All right, let's assume that he can make just about
anything work. Let's assume that he can even make an impossible reaction go,
because he wills that it shall go. (Not that I believe it, not for a moment!)
Let's say he can upset every known law of chemistry. Yet, if he alone can make
it work, what good is it to the company? He can never explain it to the
Engineering Department. You could never build a commercial plant based on his
data. That's why Kober wants to conduct the new silamine process in the
Fluidizer Bay personally."
Patrick sighed and got
up. "Maybe you're right."
"Where are you going?"
"To see our psychiatrist."
"We all need it. Wish I had the time."
Patrick smiled.
* *
*
Siegfried Walters
was "free-associating." Inventors. Very few. Why does a man invent? How
does he invent? There's an element of play in it. The best of them don't' really
seem to care whether it works or not. Indifferent. Barely one real inventor in a
hundred. Steinmetz. White's Organization Man explained all this. I could do a
paper with figures. Statistics. One man starts it all. Study him. Pick one man.
The oddest. Pierre Celsus. Bleeker has this study going. This Gruen outfit.
Profile. How long would it take them to find Celsus? And what will they do with
a fistful of mercury?
His reverie was broken by the
intercom. Conrad Patrick was waiting in the anteroom.
*
* *
Walters chose his words carefully. "Con, you
realize that I may not be able to tell you what you want to know. I cannot
discuss confidential matters."
"Relax, Siegfried.
I'm not going to let you get called up before the Ethics Committee. I just need
a few nonconfidential facts about Pierre. I've assigned one of my women
attorneys to him, and now I'm wondering if I did the right thing."
"How can I help you?"
"Is he dangerous?"
"No.
At least not in the sense that he would pick up a wrench and start swinging. He
has no wish to hurt-- conscious or subconscious. Quite the
contrary. He has been most helpful-- to me, at least. In fact, our
doctor-patient relationship has become somewhat..." The psychiatrist hesitated.
"Somewhat what?" demanded Patrick.
But Walters was silent.
Frustrated, Patrick tried another tack. "Well, is he
sane?"
"Sane? For him, that question is either
irrelevant or wrong. Were William Blake and Beethoven and Buddha sane? Is a
Chopin nocturne sane? Consider the falcon, the tiger, the temple at Karnak, and
a moonbeam on a field of snow. Are these things sane?" His head jerked as though
to squelch Patrick's snort of impatience. "The point is, Con, all these things,
these people, these creatures, are the best of their kind. Perfect. Unique.
Standards of comparison that work for other things are meaningless for them. And
you ask whether Pierre Celsus is sane."
"That still
is the question," said Patrick grimly.
"Well, then,
he's not sane. But not insane, either. Maybe the best word-- and
not really a good one-- is unsane."
Patrick shook his head in helpless frustration.
"Take this study by Gruen," continued Walters. "They
are trying to pick this one man, to summarize all that is wrong with this lab.
But suppose that he also summarizes all that is right at Hope? Suppose that he
adds up all the magic and mystery of chemistry-- the control of
mind over matter... sixty centuries of reacting things and coming out with other
things?" He paused, searching for the phrases that would explain Pierre Celsus
to the patent director. "Do you remember H. G. Wells' short story 'In the
Country of the Blind'?"
"'In the country of the
blind, the one-eyed man is king'?"
"That's just the
point. He wasn't. Being sighted, he was regarded as a freak. When he talked
about 'seeing,' they thought he was crazy. They felt sorry for him. To cure him
so that he could be a fit member of the community, they blinded him. If we're
not careful, we might do the same to Pierre Celsus."
There was a pause. Patrick cleared his throat and
studied the psychiatrist a moment. "Siegfried, I know this sounds crazy, but
have you ever detected anything... unusual... I mean, really extraordinary..."
He realized he must sound very strange. "Like-- "
"Psi?" asked Walters quietly.
Patrick started.
Walters
seemed almost relieved. "You do know, don't you? I wonder how." He took a deep
breath. "I'm going to stretch medical ethics just a trifle, Con. Since one of
your patent people will be working closely with Pierre, I think you are entitled
to know something further about him-- something you don't even know
to ask about." He got up and walked over to the tape recorder. "Pierre and I
make tapes. We do this every session, once a week. The theory is, the patient
can replay the tape at leisure to reinforce his therapy. Except replay isn't the
right word. Not the right word at all. Because some of the material on these
tapes, the recent ones, was never spoken during the analysis."
Patrick was silent, expectant. Walters became almost
pleading. "Do you understand what I have just told you?"
"I guess so," said the attorney hesitantly.
"But there must be some logical explanation. Did somebody dub in something on
the tape afterward?"
"That's what I thought, too,
the first time it happened. The second time, I knew it was the right tape, even
though I knew that what was on it was impossible."
"What was on it?"
"The real stream of consciousness. The
real thing, mind you."
"What's so unusual about
that? Isn't that the standard procedure?"
Walters
leaned forward anxiously, as though it were essential to his own sanity that
Patrick understand him. "Let me explain. We talk about the 'stream of
consciousness'. It's a great tool in analysis. When a patient starts to think
out loud, his thoughts soon wander to topics closely connected with the
experiences buried in his subconscious, the things causing his neurosis. The
patient puts up road signs, as it were, to guide the analyst. Now, you will have
to appreciate that in this oral free association, the patient's tongue is
hopelessly outdistanced by his mind, which is racing ahead a mile a minute,
hearing sounds, seeing and feeling things, and his tongue has to pick and choose
out of this kaleidoscope of sensation a few meager, widely spaced scraps to pass
along to the analyst. So a great deal is lost when the stream of consciousness
passes through the speech bottleneck. I complained about this to Pierre in one
of our early sessions. He... ah... solved the problem."
"Siegfried," said Patrick, "are you trying to tell
me that Celsus is telekinetically imposing his thoughts on tape?"
The two men stared dumbly at each other. Patrick
waited for the psychiatrist to say yes, to nod. But there was no gesture. In
silence Walters picked up a spool of tape and put it on the recorder. Instantly
the room was full of sound. There were cries, tense voices. Patrick looked at
Walters.
"You'd have to be a doctor to recognize
what's going on there," said the other. "A baby is being born."
"Incredible," breathed Patrick.
"You think that's incredible?" said Walters,
almost pensively. "Then listen to this." He put on a second tape, ran it
soundlessly for five seconds, then turned up the volume.
Patrick leaned forward.
Something rhythmic was coming from the speaker.
"...Thub-lub.... thub-lub... thub-lub..."
Walters
snapped off the recorder. "Recognize that?"
Patrick shook his head in wonder.
"It's a heartbeat," said Walters quietly.
"Heartbeat? Whose heartbeat?"
"My mother's."
"Your...
mother's?" Patrick's jaw dropped. "You mean, your mother's?"
"Of course. Whom did you think I've been talking
about? It's my stream of consciousness. It's my prenatal recall.
Remarkable, isn't it? Even Freud couldn't recall farther back than age three.
Pierre has been helping me. He puts this beam-- sort of a psi
laser-- on my cerebral cortex, and then reflects and focuses it on
the tape."
Patrick gulped. "I see. Then when you
said doctor-patient confidence, you meant that the doctor
was-- "
"Con," said Walters, looking at
his watch, "you'll have to excuse me. I have an appointment."
As Patrick left, he met Pierre Celsus coming in.
* * *
"Well, Sieg, how are we today?" cried Celsus
cheerily.
"You're late," said Walters petulantly.
I was tied up on silamine." He smiled contritely.
"Sorry."
"Well, let's get started," said Walters.
Celsus nodded gravely and sat down in the big
leather chair in back of the couch. Walters walked over to the couch, where he
lay down and crossed his fingers behind his head.
"I
hope you've reconsidered what you threatened to do at our last session," said
Celsus.
"No, Pierre. My mind's made up. I'm going
back to Vienna for a long refresher course. I'll be gone several months. You've
given me a terrible inferiority complex. In fact, I think I may be on the verge
of total breakdown. They didn't teach psi at the University. They didn't prepare
me for people like you. They let me down." His voice trembled. "I'm no good to
myself, my patients, or to anybody."
"They didn't
know," soothed Celsus. "It couldn't be helped. Psi wasn't accepted when you went
to med school. I guess it still isn't. But you can't blame yourself. There's
nobody to blame."
Walters' face twisted around.
"You're not putting this on tape. You know I have to reinforce my therapy
by replaying these tapes."
"Of course, Sieg. Right
away."
There was a click from Walters' desk,
followed by the almost inaudible whirring of the tape recorder turntable. Celsus
had not moved from his chair.
"That's better," said
Walters, mollified. He closed his eyes. "I've looked you up, you know... your
kind. It's quite a story.
"Ten centuries ago the
best metal workers were respected dealers in the black arts. That's where the
blacksmith got his name. An oath taken on his anvil was sacred, and
binding in the courts. In China, only the priests were permitted to work copper
and bronze, because everyone understood that extra-human help was necessary. But
this is all gone. Nowadays, when anything impossible happens in a chemical
laboratory, science always assumes there's a perfectly good reason, and
generally they're able to find some sort of way to reproduce the impossibility.
The overlook the fact that before it was first done, it was often truly
impossible. They overlook the nature of the man who caused it to happen that
first impossible time. Often the man himself doesn't understand how he did it.
He would resist knowing. Even those who have psi often refuse to believe it.
Take Carothers and nylon, Bell and the telephone, De Forest and the triode,
Röntgen and X rays, Goodyear and rubber. They did these things, and later, much
later, their successors figured out why the thing worked. They want you to
explain why silamine works. But you can't. At least, not in terms that would
make sense to Andrew Bleeker and Arnold Gruen.
"This
Gruen thing. They're going to find you, you know."
"Yes, I know." The response came from the speaker on
the tape recorder.
"You don't seem to be worried. Do
you know what's going to happen?"
"Some of it," said
the recorder, "but I don't know where or when."
"What will it be like?"
There was a silence. And then, as if to answer him,
there came sounds from the speaker that the psychiatrist could barely make out.
He sat up slowly, heavily, as though wakening from a dream. He was alone in the
room. The impression grew on him that he had been alone for some time. He stared
at the tape recorder, and now he understood the sounds. It was music. It was
beautiful. He slowly recognized it. Bach's "Sheep May Safely Graze." And then
other sounds began to emerge through the music in eerie counterpoint. He
recognized the intrusive, incessant ringing of a telephone. Then an automobile
horn. Then a woman's scream. And then there was a click, and the recorder
stopped. Siegfried Walters pressed his hands to his face and groaned. "Oh,
Freud, how could you have missed it!"
* *
*
It was nearly
midnight.
They sat on the sofa in Marguerite's tiny
parlor, leaning back, and listening to Bach. It came to its lovely dreaming end
and continued to float in the silence.
Finally
Pierre Celsus said quietly, "What do you want of me, Marguerite?"
"I want to be your friend."
"Always before, when somebody wanted to be my
friend, he really wanted something else."
"I know,
Pierre. I once hoped you would explain-- really
explain-- your silamine process to me." Her voice became morose.
"But I gave up. I don't care anymore."
"But we've
been through all that, Marguerite," he said patiently. "The reaction needs heat
in an amount available only in a nuclear process. So we provide that. The
terbium reacts with the silicon. The atomic number of silicon is fourteen.
Terbium is sixty-five. to make them react, we simply feed in a little xerion. It
doesn't react all at once; it's continuous-- over several hours.
This gives the necessary BTUs over the required reaction period. In fact we get
a little too much heat. That's why we have to cool the fluidizer column. We cool
it with liquid ammonia, which we heat exchange from the hot column. This
vaporizes the ammonia, so we just use the resulting vapor ammonia as the
combination fluidizing and reaction vapor. The vapor ammonia reacts with the
suspended silica particles, and out comes silamine. But you know all that. Why
do you want to hear it again?"
The girl was puzzled.
You mean, the terbium oxide really reacts with the silica?"
"Of course. The xerion, or elixir, causes it. Some
centuries ago, it was a very well known catalyst for this kind of reaction."
"I don't think it's in Gmelin."
"No, I suppose not. But of course Gmelin is
concerned only with chemical reactions. There's nothing nuclear in the
Handbuch."
"Nuclear...?"
"Of course. How else could you get the necessary
heat?" He looked at his watch. "Kober ought to be finishing the first silamine
run right now. You're sure he isn't changing anything?"
"Not really. I think he plans to collect the
catalyst, after the run, to analyze it."
The man
started. "What do you mean, collect it? He's supposed to discharge it into the
alkahest."
"Why, Pierre, I'm sure I don't know.
Can't he simply ladle out a sample from the alkahest?
The man's voice was suddenly harsh. "The alkahest
will dissolve anything he dips into it. And then what will he try?"
As she watched, the blood drained slowly from his
face. Yet, when he spoke, his voice was controlled, almost resigned. "I have to
go now, Marguerite."
Troubled, she did not try to
stop him.
But after she heard his car drive away
from the front of the apartment building, she began to worry in earnest. She had
a premonition that something terrible was going to happen. But what? In fact,
what was happening? What was going on, down at the lab, right now? Why
did the process work at all? What was terbium plus silicon? Suppose you added
their atomic numbers? What was sixty-five plus fourteen? Seventy-nine. And what
element was number seventy-nine? It could be... but it couldn't be... She jumped
up, ran over to her bookcase. Ephraim would have it. She flipped through the
pages. There it was, "Gold, atomic number 79." Pierre Celsus was making gold.
That was his nuclear reaction, his source of tremendous heat. The wisdom
of the ages applied to making silamine in the twentieth century. And if gold
were really there, it was there as auric oxide. And auric oxide, ammonia, and
water would react to form-- gold fulminate.
She whirled, seized the phone, and dialed rapidly.
* * *
Marguerite's voice was low, urgent. "Ben?
Ben Kober?"
"Yes? Who is it?"
"Ben, this is Marguerite French. I want you to
listen carefully."
"I can't talk now, Marguerite.
The silamine yield was twice what we expected. The collector overflowed, and I
had to shut down. I'm still mopping up." Kober sounded irritable, impatient.
"Marguerite, I'll have to call you back."
"No, Ben!
This is extremely important. Just tell me this: Are you running the spent
catalyst into the alkahest-- all of it?"
"No, I'm not. That alkahest stuff is--
crazy. I tried to ladle some spent catalyst out of it with an iron dipper, and
the whole dipper dissolved. Anything that goes into that alkahest is
gone. The only way to collect a sample of catalyst is to dry it with hot
air, in situ, in the fluidizer columns. Which is what I'm doing now. And
as soon as it's dry, I'm going to take samples for analysis."
"That's what I thought. Ben, you must get everyone
out of the Fluidizer Bay, instantly."
"There's no
one else here."
"Then get out, yourself. Don't even
wait to cut the switches."
"And why should I get
out?"
"The catalyst is going to blow."
She heard Kober's curt chuckle. "You don't say. This
is just plain silica, Marguerite. Sand."
"It is
not. If I tried to explain, it wouldn't make any senses to you."
"Try me."
"Some...
gold... has got into the fluidizers. This has reacted with the ammonia. The
whole unit has been working with gold fulminate coating the silica. The
fulminate was harmless, because it was wet with by-product water, and Pierre
intended that it all be dumped into the alkahest, where it would--
disappear. But now you're drying it in the fluidizers. As soon as it's dry, it
will explode."
"Gold... fulminate-- ?"
said Kober slowly.
Marguerite continued with a sense
of desperate futility. "Yes. You get it when you react auric oxide with ammonia
and water. When it's hot, it detonates by friction. Your drying conditions are
perfect."
"Marguerite, have you been drinking?"
"No, Ben. Just a couple before dinner. That was
hours ago."
"You had dinner alone?"
"With Pierre."
"Now,
Marguerite, let's consider this thing calmly. I don't know what nonsense Celsus
has been feeding you. But believe me, there's not a trace of gold in the
silamine system. We analyzed everything that went in, and I've been here from
the beginning. Celsus is just trying to queer the whole run, because he wasn't
asked to supervise it."
"No, Ben, it isn't that way
at all. I know there was no gold in the catalyst in the beginning. But there
is now."
"Impossible. The seals on the fluidizer
and the feeder are still intact. There's absolutely no way for anything, gold,
silver, or your fine pea soup to get into the reactor."
Marguerite felt her slight body begin to shake. She
took a big breath, then exhaled slowly. When she spoke again, her voice was
quiet, with the calm of fatalism. "Pierre did it. By a technique that neither
you nor I could possibly understand. There is reason to think that he is an...
alchemist. You know... philosopher's stone... xerion... alkahest... universal
solvent... the whole bit. He can create gold on the silica--
out of the silica. That's what provides the heat."
Kober said curtly, "I must say, Marguerite, this is
the last thing I'd expect to hear from one of your standing in this company.
What are you trying to do to our survey?" He continued with mounting bitterness.
"The patent department stands to gain as much from our study as any group in the
lab. I know Gruen has enemies. We expect that. But not at your level. You can be
sure Bleeker will be told."
There was a click.
"Ben!" screamed the girl. Instantly, she dialed
back. She listened to the ring for a moment, and then there was another click.
"Ben? Ben?" There was no answer, and she finally realized that Kober must have
taken the phone off the cradle. And that meant her own phone was dead. She could
not call Patrick.
Within seconds Marguerite had
pulled on her coat and was running downstairs to her car. Patrick. Kobe would
listen to Patrick. And fortunately Patrick's house was on the way to the lab.
* * *
In five minutes she was simultaneously
jabbing at Patrick's doorbell and pounding on the door. The lights came on after
what seemed forever, and Patrick stumbled downstairs, pulling ineffectually at
the sleeves of his robe, red hair and mustache awry. "I'm coming, I'm coming,"
he called hoarsely. "Marguerite, what in the world!"
She had a momentary impulse to dump the whole thing
in Patrick's lap and then collapse. But suppose he didn't believe her
either? What then? She couldn't take the chance. There was only one way to do
it.
She said quickly: "Emergency at the lab. Where's
your phone?"
Patrick was already moving into the
study. "This way."
"Call the night watchman. Tell
him to call an ambulance. And tell him to stay away from the Fluidizer Bay. Then
you follow me down."
"I'll be right behind you,
Marguerite. Don't take any unnecessary-- "
But the front door had already slammed behind the
girl.
* * *
Marguerite's ride down Route 29 to the lab
had a vague, dreamlike quality. At eighty miles an hour, the car seemed floating
lazily. Ridiculous irrelevancies flitted through her mind. It can't be
happening. Not now. Not today. Not in the twentieth century. Perhaps it would be
all right in some dark thirteenth-century cellar, but not at the Research
Laboratory of Hope Chemical Corporation, organized and existing under the laws
of the State of Delaware, United States of America, and having a principal place
of business at Camelot, Virginia.
Somewhere behind
her she heard a siren howling, and her eye caught a blinking red light in her
rear-view mirror. Ambulance? No, patrol car. She laughed soundlessly and turned
up the drive into the lab grounds. As she did so, she saw ahead of her another
car already far up in the drive, already drawing to a halt at the first of the
buildings. In a moment of dark prescience, Marguerite knew it had to be the
little red compact of Pierre Celsus. And it was plainly Celsus who ran into the
building.
Marguerite honked her horn savagely. Then
she screamed, "Pierre! Pierre!" It was useless. She pulled in behind the other
car, brakes screeching, and ran in through the lobby, then dashed down the
corridor toward the Fluidizer Bay. As she burst through the swinging doors of
the Bay, she thought she was in time. Celsus and Kobe were struggling on the
floor by the silamine control panel. Each of the three fluidizer columns was
gleaming peacefully under the bright fluorescent lights.
She saw Celsus break away, reaching for the
switches.
Then the first column exploded.
The blast, projecting outward, for a microsecond
bathed Celsus in an iridescent spray, outlining his shadow on the gray-painted
concrete block wall behind him.
In that moment a
great wind lifted the girl, almost gently. She closed her eyes by reflex, and
wondered whether her back would be broken when she was hurled through the doors
behind her. But she did not touch the doors, because they were burst from their
hinges even before she was thrown through the doorway. Then there was a second
blast, and something massive whistled over her head while she was still in the
air. The third blast was complete before she stopped skidding down the hall. All
three fluidizers had blown in sequence. She picked herself up and ran back to
the doorway, where Kober passed her, staggering, coughing, face bleeding.
Inside, Celsus lay face down in the wreckage of the
silamine unit. In the bay, a merciful pall of dust swirled slowly, and nothing
was recognizable.
She gathered her crumbling wits
and stumbled down the stairs to the body, lying small and rumpled on the
concrete floor. She knelt down, thrust her hands gently under the armpits, and
began to drag the body slowly toward the stairs. She was met halfway by Patrick,
who seemed to have materialized from nowhere. Together they got Celsus into the
hall. He was unconscious, but breathing regularly, and no bones seemed to be
broken. By now they had been joined by Kober, the night watchman, a state
trooper, and two ambulance attendants.
Celsus, amid
groans, tried to sit up. Patrick peremptorily pushed him back down. Then, as
Patrick straightened up, he looked back into the Bay. He pointed, wordless.
Marguerite stared with him.
The dust was settling,
and as it settled it was changing color. It went through the spectrum. It was
pink. Then it was blue. Then purple, brown, black. The emergency lights were
turning green, and Marguerite knew that this had to be so, because gold was
translucent in thin sections and transmitted green light. The aluminum blinds
just beyond the fluidizers were momentarily purple, with the instant formation
of gold-aluminum alloy, and even as she watched, the color was changing to a
more golden luster. Even the iron stair guard was changing, the blue of the
ferro-gold creeping rapidly up toward them. And then the shift of colors slowly
ceased, and an aureate patina lay everywhere. Marguerite knew then that every
piece of exposed metal in the bay, from the wrecked fluidizers to the sink
fittings, was Midas-stricken.
And then Patrick
pointed again, this time across the great room, toward the opposite wall. On
that wall was the shadow of a man, blast-written, one arm raised to them in
eternal greeting, a gray silhouette stenciled within a scintillating sheet of
golden particles embedded in concrete, a chiaroscuro of darkness and shining
promise, a thing to measure them forever.
"What is
it?" whispered Celsus.
With awe, Patrick replied,
"Your profile."
* * *
The Staff Room used regularly by Bleeker for
the monthly meetings of his department heads, was kept on a continuing standby
basis by Miss Sally for instant emergency use. To ensure this condition of
perpetual preparedness, she had made it clear to her boss and his lieutenants
that the pencils, tablets, and ash trays in front of each chair were there
solely for purposes of state and were never to be touched. Patrick, who felt
naked and insecure without his meerschaum, met the ashtray problem by hiding
several in an old briefcase in a drawer of the big conference table. The
conferees, of course, took notes, if any, on paper they brought with them.
Bleeker sometimes assigned to one man, generally Henry Pfennig, the comptroller,
the task of "writing up" the meeting for circulation to all participants, after
checking the draft with Bleeker, who occasionally added a few comments, which,
although never said in conference, should, on his due reflection, have been
said. And sometimes he struck passages-- his own and those of
others-- which he felt were inconsistent with conclusions reached
after the conference.
Except for Bleeker, the
seating at Bleeker's conferences was a matter of subconscious choice. Bleeker
always sat at the head of the long table, like the captain at the helm. From
there on, the seating varied, depending on the type of meeting expected. If it
were rumored that Bleeker was going to read a letter of praise from the Board of
Directors for accomplishments of the past year, all the chairs close to the head
of the table were likely to be occupied. And contrariwise, if the meeting were
rumored to deal with matters of budget cutting, then the staff shrank to the far
end of the table in an anxious cluster.
This
morning, of course, as everyone knew, the conference sat as a court of inquiry,
and from this fact the proper seating emerged. Patrick, as counsel for the
defense, took the end of the table opposite from Bleeker, the judge-prosecutor.
The defendants, Celsus and Prentice, took seats together, alone on one side of
the table, and opposite them, Gruen, Kober, Bond, Pfennig, and
Marvin-- of Personnel-- formed the jury.
Pierre Celsus stole uneasy glances at the unsmiling
faces opposite him. He sighed and dropped his eyes. He knew he had sinned
chemically. Because of him, three people might have been killed. His process had
demolished equipment worth many thousands of dollars. The project had been set
back by several weeks. Now, in fact, silamine might never reach the pilot plant
stage.
Initiative, he had been told, was valued at
Hope, but, he suspected, not when it resulted in disaster. That was when they
stopped talking about brilliant breakthroughs, and started talking about sheer
crass sophomoric stupidity. There was no use in trying to explain anything.
Those few who accepted his talent required no explanations; to those who did not
accept psi, no explanation was possible.
He knew he
was through at Hope. He wouldn't mind being fired, except for Marguerite. He was
going to miss Marguerite. He slumped miserably down into his chair. Prentice
looked at him for a moment and then did the same.
Bleeker looked slowly around the table. "I think you
all know why we are here. Last night's explosion merely brought matters to a
head. Apparently this situation has existed for some time, and with certain
exceptions"-- he nodded gravely to Patrick-- "we have
been too blind to see what has been going on. I have asked all of you here to
help me decide a course of action. And Pierre, I'll start with you. Do you
really have this power, psi, or whatever it's called?"
"Yes, Mr. Bleeker, I guess I do."
"And Prentice, he has it, too?"
"He has it, too, but I'm still teaching him how to
control it."
"Perhaps both of you could use a little
more instruction," said Bleeker dryly.
"Kober
shouldn't have tried to dry the catalyst," said Celsus shortly.
"I don't hold him blameless," said Bleeker. "But the
question is, what do we do about it? I take it, Pierre, this is by no means the
first time you have used psi in our research?"
"That's right, sir. Only, this is the first time we
got caught."
Bond asked curiously, "What were the
other times?"
"Different times. Certain processes
required high exotherms, and we provided the heat the same way that we did for
silamine, by nuclear reactions in which we made gold in situ. And then we
got rid of the gold in various ways."
"How do you
mean, various ways?" asked Bleeker.
"Well, last year
we ran the effluent into a tank of ferrous sulfate-sodium hypophosphite. The
iron came out as metallic iron, of course, and then immediately alloyed with the
gold, to give crystals of green iron-gold alloy. It sat around in the
solids-disposal vat, near the parking lot, for several weeks before it was
hauled away. Mr. Pfennig used to toss his cigarette butts into it, coming to
work every morning. Another time we hid the gold as nice purple crystals of
aluminum-gold alloy. Nobody noticed, because everybody thinks that gold is
gold-colored."
"Why did you switch over to alkahest,
in the silamine process?" asked Bleeker. "Why didn't you figure out another way
to 'hide' the spent catalyst?"
"We were afraid there
would be too much catalyst to hide. We needed something that would absorb
hundred, even thousands of pounds of spent catalyst. It had to be the alkahest."
Pfennig turned his cold eyes on Celsus. "Gold is
worth thirty-five dollars an ounce. How many ounces, all told, did you throw
away?"
Celsus studied the ceiling. "Well, from the
beginning, I guess there was a total of about three or four hundred."
Pfennig's eyes widened. "Four hundred ounces? That's
fourteen hundred dollars!"
"No, Pfennig. I meant
four hundred pounds. Twelve ounces to the pound, troy weight."
"But that's"-- his voice rose in a
horrified shriek-- "one hundred sixty-eight thousand dollars!"
"Spare us the arithmetic, Henry," said Patrick. He
turned to Celsus. "About the silamine unit. You started it with psi. You heated
it with nuclear psi. Could you shut it down with psi?"
Celsus and Prentice exchanged glances. Celsus rubbed
his chin. "In the sense you mean, I think the answer is 'yes'."
"Without blowing up the plant, I mean," said Patrick
hastily.
"Of course."
Patrick relaxed back into his chair, fired up his
meerschaum, and smiled across at Bleeker as though to say, "Your witness."
"I don't see your point, Con," said Bleeker
impatiently. "Who cares whether he can stop it? I think we'd better go on
to the technology of the operational process. Pierre, about this alkahest: Is
this a true universal solvent?"
Celsus shrugged his
shoulders. "I think so."
"Then why," demanded Kober
triumphantly, "doesn't it dissolve the vessel that contains it?"
Celsus looked at Prentice. The latter grinned, then
replied, "That's easy. The solvent isn't in direct contact with the container.
Also, I don't believe the solvent action is really chemical."
"You don't believe!" sneered Kober. "You
admit you don't know?"
"That's right. We think it's
more-- mental-electrical. To activate it, we have to set up these
encephalographic oscillations. In fact, we think that anything that goes into
the alkahest truly disappears-- dematerializes. Now, if we had a
companion psi field, we might make it remateria..."
"I believe that's enough for now," said Bleeker
quietly. "Pierre, would you and Prufrock be good enough to wait in the anteroom?
I'd like to discuss this further with the rest of the group."
*
* *
After the two had gone, Bleeker looked
around the table. "And now, I want some constructive suggestions."
"The answer's obvious, Andy," said Pfennig. "These
men are dangerous. They've destroyed equipment, nearly killed a couple of
people, fouled up orderly administrative processes, and driven our psychiatrist
crazy. We'll have to let them go."
Bleeker looked
thoughtful. He glanced over at Bond. "Jim?"
The
Silicon Group Leader spoke with slow dignity. "I've been with this company ever
since I got out of graduate school. When I arrived here, the lab was one wooden
shack in the middle of a corn field. Our pilot plant was an old bathtub. I
watched the first brick building go up. I've spent my professional life watching
Hope Chemicals grow into the giant it is today, and I like to think I've done my
share to help it grow. We did this by science, by ordered imagination. And we
can keep doing it. We don't need magic or chicanery. Are you going to let these
men louse up a generation of Hope chemistry? In fact, will you let them destroy
several centuries of genuine science? Are we to return to the Dark Ages? And
suppose we branch out into alchemical processes-- do you think it
will end there? What lies beyond alchemy?" Bond's mouth wrenched bitterly.
"Can't you see what will happen? This means the breakdown of modern chemistry.
It's like Einstein and the collapse of classical physics, except this will be
worse-- much, much worse."
Bleeker
winced. "You brought out a number of interesting points." He turned to Gruen.
"Arnold, how does our consultant say?"
"Even if it's
true, what Celsus claims, this talent, which I very much doubt, I suggest that
you wait a while. Let some of the smaller, irresponsible chemical companies make
fools of themselves. Of course, in the remote event it works, then Hope can
always pick it up."
"I see. Dave?" Bleeker nodded to
Marvin of Personnel.
"Insane," muttered Marvin. "If
any rumor of this thing leaks out, we'll never get another serious job
applicant-- just kooks."
"And now,
Con," said Bleeker. "It's your turn. What's the legal viewpoint?"
"I've looked into a number of points," said Patrick,
"but I'm sure I haven't caught everything. Our corporate chapter is silent on
alchemy. It says generally, though, that we can engage in any lawful activity in
the chemical field. The early Virginia laws against witchcraft and magic were
repealed in the eighteenth century, during Williamsburg days, and I believe we
could argue that any implied restrictions against alchemy were abolished at the
same time. At the national level, though, there may be a problem on alchemical
gold-making as such. Nuclear processes belong by law to the Atomic Energy
Commission. If word got out, the United States government might seize Celsus and
Prentice by eminent domain. Furthermore, aside from a little jewelry use, the
only real market for gold is the United States Mint. We seem to be clear,
though, on all other alchemical processes, such as silamine."
"Can we take our patents on these processes?" asked
Bond heavily.
"No. Not at present. There are no
specific statutes permitting psi patents. Also, the United States Supreme Court
held in Halliburton v. Walker that a patent claiming a mental step is invalid.
This is a gap in our patent statutes that can be overcome only by legislation
specifically aimed at psi patents, just as the Plant Patent Statute was enacted
in 1930 to protect certain new varieties of plants. But I'm not sure we want psi
patent legislation. Not yet, anyhow."
Bleeker looked
at him curiously. "If we can't get patent protection, what's to stop Celsus from
leaving us and setting up a competitor in the silamine business?"
"Any court in the country would give us an
injunction against that," said Patrick. "His employment contract with Hope ways
that we own all processes he developed here, and requires that he won't disclose
our processes to any subsequent employer. On the other hand, if we make life
attractive for him here, why would he want to leave?"
"You mean," said Bleeker, "have him
deliberately develop more psi processes?"
"Certainly, and hold them all as trade secrets.
Exploiting psi techniques as trade secrets will have many advantages over our
normal patent procedures. In the first place, you don't have to worry about
infringing adverse psi patents. There aren't any. Secondly, most foreign
countries can force you to grant a license under your foreign patents. We'd
never have to worry about that. With psi, we can always pick our own licensees.
Thirdly, all patents finally expire. But a psi technique need never expire."
Bleeker leaned forward and peered keenly at Patrick.
"Let's get specific. Suppose we license silamine to the People's Republic at a
running royalty. How do we enforce payment?"
"They
pay or Celsus shuts them down," said Patrick simply.
Bleeker studied the blank pad in front of him. His
face held no expression, but his mind was racing, searching. The answer was
here, if he could only put his finger on it.
"Besides our own plant," continued Patrick quietly,
"we would have licensees in all civilized countries. But of course," he
shrugged, "it's only money."
Bleeker stared at him
with widening eyes. "Money..." he whispered. And suddenly he saw the solution...
the answer... the way out. And with this came a shocking, awesome insight into
those glacial faces in Richmond, with their rimless spectacles: the Hope Board
of Directors. They had put him here, knowing that when this moment arrived, he,
and he alone, would know what to do, and would be worthy of their trust, and of
the fabulous salary they paid him. It made a man very humble. And yet, it was so
easy, and so obvious, at least to him. He felt almost sorry for his department
heads, with their routine minds, thinking only of patents, of personnel, of
run-of-the-mill research problems, and of the ordered progress of science.
"Arnold," said Bleeker to Gruen, "before we get too
far with this, I want to thank you on behalf of Hope. Without your survey, we
might never have discovered this potential hidden in our midst."
Gruen was puzzled, but took it in stride. He had not
reached his present eminence by rejecting undeserved credits. "We simply did our
duty," he said with noncommittal modesty. That, he thought, would take care of
most anything.
Ben Kober stared in bemused silence,
first at the research director, then at Gruen.
"Does
this mean," demanded Pfennig with painful perception, "that Celsus and Prentice
stay?"
Bleeker nodded. "Of course they stay. But
that's just the start. Call them both back in, will you, Henry, and let's get
this thing organized."
The two men came back in
hesitantly, looking scared.
"Gentlemen, be seated,"
said Bleeker genially. "Pierre, I think you'll be delighted to know what we're
going to set up a group for you, a psi group, devoted exclusively to alchemy.
You can work on anything you like, so long as it's a moneymaker, of course."
Celsus slowly relaxed. "Why, that's wonderful.
However, I wonder if you could make it retroactive to last month, when the moon
was in Aries?"
"Astrology!" cried Pfennig. "What
incredible impertinence!"
Bleeker held up his hand.
"The auspices were at their maximum then?" he asked Celsus gravely.
"Yes, sir."
"Call me
Andy, Pierre."
"Yes, Andy."
"So be it. Now, Pierre, everything should have a
name. What shall we call your new group?"
Celsus
looked doubtful. "Most anything. 'Special Projects'...?"
"Too tame," said Bleeker. "How about the 'Alchemical
Group'?"
"Andy!" cried Dave Marvin. "The Board of
Directors will think you're crazy!"
"Crazy, Dave? If
it makes money, it can't be crazy. That's a contradiction in terms. Anyhow, if
the Board notices it at all, they'll think it's just another promotion gimmick
of our Madison Avenue ad agency. You know, like 'miracle plastics,' 'miracle
cigarette filters,' 'miracle detergents,' except that they'll be pleased that
we're not using a tired, overworked word like 'miracle'."
"They'll find out sooner or later," said Bond
sourly.
"I know. But by then the silamine contract
with the People's Republic will be making so much money they won't care what we
call it."
"With that name, we'll be tipping our hand
to the competition," demurred Marvin.
"The industry
may eventually find out," conceded Bleeker. "But at least this will delay the
discovery. This way, they'll think we're joking. Everybody knows there's no such
thing as alchemy. But if we called it 'Special Projects,' they'd have spies in
here overnight. Our best camouflage is to be wide open. Business as usual. So we
have a name." Bleeker leaned back. He was enjoying himself immensely. "And when
we sign that People's Republic contract, we'll automatically have to spend ten
per cent of the receipts on supporting research. So now let's staff the new
group and give this thing some functional structure." He looked across to
Celsus. "Pierre, you'll need an Assistant Group Leader. Anyone in mind?"
"Well, Prufrock and I have worked
together-- "
"Oh no!" groaned Pfennig.
Patrick shot a warning glance at the comptroller.
"Don't say it, Henry," he said quietly.
"I will say
it! A. P. Prentice-- the sorcerer's apprentice!"
Bleeker looked at him thoughtfully. "Well, there's
an idea. 'Sorcerer's Apprentice'. Hm-m-m. Perhaps we should use that as
the title, instead of 'Assistant Group Leader.' It goes nicely with the
alchemical motif. Is that all right with you, Prufrock?"
"It's fine with me," said Prentice. "I never had
any title before. Can I use it when signing mail?"
"Certainly. Now, then, let's go on. Hope has big
insurance policies on the lives of its key executives, payable to Hope, of
course. Henry, we'll need something like that for our people in the Alchemical
Group, something similar to a violinist insuring his hands. Only here, we're
covering loss of psi."
"I'll try Lloyd's of London,"
said Pfennig. He added cynically, "The premium should be fairly cheap, if we
tell them it's for continuance of existing talent."
"Fine," said Bleeker. "Now, the new group will need
some technicians. Dave Marvin can take another look around here, for talent. And
also, Dave, will you line up a good body-snatching technique for locating psi
talent in the colleges... and among our competitors. When we set up our job
application booths at the ACS conventions, include some way to catch the psis."
Marvin looked dubious. "We stopped the ACS job booth
months ago. As you may recall, Con, we borrowed your Miss French to take the
applications. Very attractive young lady. And we got more applications from our
own lab than we did from the competition."
"Try her
again," said Bleeker. "At least, this way maybe she can detect some talent in
our own applicants. Now then, for the universities. We ought to sponsor some
graduate research. Two or three fellowships to start. Pierre, any ideas?"
"Oh, there's plenty of projects. Psi-rearrangement
of plant chromosomes for better crops. And Prufrock could use some blue sky
research on the operation of the alkahest."
"Sounds
good," said Bleeker. "How about placing them with Duke University? They've done
a lot of work on psi phenomena."
Patrick frowned. "I
don't know. Duke is too ivory tower for my taste. They've been in this field for
thirty years, and never made a nickel on it."
"All
right," said Bleeker, "we'll try a school with a more realistic approach."
"How about the University of Transylvania?" said
Bond acidly.
"Just the thing," said Bleeker. "And
that'll give us an objective foreign viewpoint, too."
"Also," said Celsus, "we ought to place a project on
psi-control of Maxwell's Demon, for our thermodynamic studies."
"For that one," said Bond wearily, "Texas Christian
University."
Bleeker beamed at him. "The very
thing!" He studied his notes. "Consultants. We ought to have a couple of
top-flight men."
"We need a good astrologer," said
Celsus.
"Fine. Get some names. I'll go over them
with you. Any others?"
"I've been corresponding with
a man in Trinidad... a houngan."
"That's
voodoo!" hissed Pfennig. "And it's outlawed there."
"The government of Trinidad is squarely behind its
new chemical industry," said Bleeker smoothly. "I'm sure they would help us in
making the necessary arrangements for a bona-fide chemical consultant, such as
Pierre's friend."
"We'll also need a computer
expert," said Celsus, "at least one, for programming our machine translators."
"What for?" demanded Kober.
"It's for the incantations for our foreign
licensees," explained Celsus. "For example, English won't work for the People's
Republic plant in Czezhlo, and I don't know whether we could trust an
interpreter."
"Agreed," said Bleeker. "One
computerman. Now, we'll need a trademark for silamine. Any ideas?"
"'Psilamine'," said Patrick, sounding the 'p.'
"Will the Patent Office register that?" demanded
Bleeker. "Isn't it descriptive?"
"Is the Patent
Office going to believe it's made with psi?" countered Patrick.
"I suppose not. Very well, then, 'Psilamine' it is."
Patrick broke in. "The new group should include a
Trade Secret Officer, to work on psi inventions in liaison with my own
department. He could take quite a load off us."
Bleeker looked at Patrick blankly. It was
incomprehensible that Patrick should recommend that the function of the Hope
Patent Department be diminished in favor of a competing group. As Patrick
continued, however, Bleeker relaxed.
"Marguerite
French is the obvious candidate for the job," said Patrick. "And, of course,
I'll need an additional man in my group to work with her, besides another
attorney to replace her."
"Seems reasonable," said
Bleeker. At least, he thought, it fits the pattern. Whenever we figure out how
to eliminate one man, we find we need two more to replace him. He sighed. "All
this is going to cost a lot of money. So let's start making that money. Con, if
you will blue-back a couple of execution copies, I think we can sign that
contract with the People's Republic."
* *
*
So the world's
first commercial silamine plant was built. The day it went on stream Comrade
Sasanov dedicated the plant to the People's Republic in an elaborate ceremony,
with ribbon cutting, valve turning, and Pierre Celsus standing beside the
machine translator awaiting the signal to start the punched-tape incantation.
Three months later Pfennig telephoned Bleeker. "The
first royalty check is now one week overdue."
This
struck a chill to Bleeker's heart, but he kept his voice assured and cheerful.
"Don't worry about it, Henry. I'll cable Sasanov."
The cables-- and there were finally
three-- brought no response. Bleeker then telephoned the
chancellery at Czezhlo. He got as far as the second assistant secretary. Comrade
Sasanov was unavailable.
"Then give His Excellency a
message," said Bleeker in clipped fury. "We are going to close down your plant."
Across six thousand miles, he heard a polite purr:
"How very droll, Mr. Bleeker! When, exactly, do you plan to shut down our
plant?"
Bleeker thought wildly. Had he stepped into
something? Still, Celsus had assured him he could, if necessary, shut the plant
down. "Next Friday," he grated. "At midnight, Czezhlo time. And it will stay
down until we get that check. Tell Sasanov."
A
chuckle squeaked, back through the static. "I shall, Mr. Bleeker, I shall
indeed."
Even as he was hanging the phone up,
Bleeker realized that he had violated the basic rule of leadership: he had made
an emotional decision. Even worse, he would now have to call on his assistants
to bail him out, and he hadn't the faintest idea how, or whether, they could do
it.
Ordinarily Bleeker knew how far his people could
be led, cajoled, threatened, coaxed, and pushed. He knew their inner resources,
hidden strengths, latent ingenuities, better than they themselves.
But psi was different. He knew he didn't have the
"feel," the insight, and the understanding that would surely bring forth the
necessary team effort to solve the Sasanov problem. It would be like trying to
conduct the lab symphony orchestra in an evening of Beethoven, when he couldn't
even read music.
He glared bitterly across the room
at the model of the silamine plant sitting on his credenza. The model had been
painstakingly contrived in the lab maintenance shop. It had first been exhibited
to the Board of Directors, and later, by special recommendation of the Hope
President, it had sat in glory on a dais at the annual stockholders' meeting in
Richmond.
A dozen times in the past few months
Bleeker had caught himself daydreaming in the direction of the model. The scene
of his visions varied, but generally it was the bar of the Chemists Club in New
York. He was seated there over cocktails with a couple of old friends, research
directors with Hope's competitors, basking in their eager, envious inquiries as
to how he had pulled off that fabulous silamine license with the People's
Republic. He could see himself smiling in poorly-simulated self-deprecation.
"Seems like magic to us, too." That's all he would tell them. And now the vision
was fizzling out. If Sasanov refused to pay royalties, Bleeker would never dare
show his face in the Chemists Club again.
Just now
the model was gleaming in minuscule mockery.
He took
a deep breath and buzzed his secretary. "Miss Sally, get me Mr. Celsus."
*
* *
Bleeker looked gravely from the silamine
plant model occupying the center of the conference table to the surrounding
faces. "I want to thank all of you for coming, especially you, Dr. Dessaline. We
apologize for the short notice."
The dusky
houngan from Trinidad nodded inscrutably.
Bleeker continued. "As you all know, this is a real
emergency." He looked at his watch impatiently. "Does anyone know where Con
Patrick is?"
"He's on his way from the airport,"
said Celsus evasively. "He'll be here in a few minutes."
Bleeker sighed. Give a man a title, and the first
thing you know he starts wearing a clean lab coat; next, he wears a suit, and
the jacket matches his pants. But Celsus had not stopped there. He was now
wearing a vest. He had obviously hired another very important-- and
very expensive-- consultant. Patrick was probably bringing him in
from the airport.
"We'll have to go ahead without
Patrick," said Bleeker. "It's already five o'clock-- eleven p.m.
Czezhlo time. If we're going to accomplish anything, we have barely an hour.
Pierre, what can we do?"
"I've reviewed the
background with Dr. Dessaline," said Celsus. "We both agree on the basic
approach. We must put a temporary hex on the Czezhlo plant."
"What does that involve?" asked Bleeker, curiosity
breaking through his gloom.
"The principle of
malediction is quite simple," said Dr. Dessaline. "The condemnation recital
requires no set words. If it is sincere, if it comes from the heart, that is
enough. Promptly following the incantation, the denunciator sticks the pin in
the effigy-- the doll, if you will. The entity represented by the
doll instantly falls into a swoon and recovers only when the pin is removed."
"Doll?" said Bleeker apprehensively. "Of Sasanov?"
Dr. Dessaline smiled thinly. "Nothing so sophomoric,
Mr. Bleeker. The doll we mean is this model of the plant, which Mr. Celsus
brought in from your office just for this purpose. For a pin we can use almost
anything-- a knife, a ruler... this letter opener will do."
"I see," said Bleeker. He turned to Celsus.
"You are going to perform this hex, I presume?"
"No, Mr. Bleeker!" said Dessaline quickly. "Not Mr.
Celsus. You must not ask him to curse his own child! Even if he should try, out
of loyalty to you, it probably would not be completely effective, because he
could not possibly be sincere at the necessary subconscious level."
"Well, then," said Bleeker grimly, "who is
going to do it? You, Dr. Dessaline?"
The
houngan sighed. "I could do it, but I would need time for the necessary
preparations, and I would have to collect suitable assistants, with specially
tuned drums. This could be done only back in Port-of-Spain, and would mean a
delay of several days. The dramatic effect of calling the exact time would be
lost. Sasanov would not be sure that the shutdown was your direct act."
"Am I to understand, then," said Bleeker slowly,
"that nobody can do anything, here and now?"
"We intend to try, Andy." Celsus studied his
superior hesitantly. "I hope the budget will stand one more consultant?"
"I suppose so." Bleeker turned to Pfennig. "Henry,
how much is this hex going to cost?"
The comptroller
adjusted his pince-nez and studied his accounting sheets. "Depends on whether we
charge it out as a normal operating expense, or whether we have to amortize it
as a capital expense resulting from the transfer of assets held more than six
months." He cleared his throat. "I must confess, I've had trouble in getting a
clear answer from the Internal Revenue people-- "
"Never mind," said Bleeker hastily. "If we really
have to have another consultant for the hex, we can't bother about the expense."
"We need someone with unusual qualifications, Andy,"
said Arnold Gruen. "We have analyzed his profile. As a minimum, he must be a
physical chemist with an international reputation. He must be a man of
convictions, and not given to delicate nuances in his pronouncements."
(How curious, thought Bleeker. Not so many months
ago, I had to ram the Alchemical Group down their throats. Now they are all
telling me how it ought to be run.)
"To sum up,"
concluded Gruen, "he must be a scientific man of letters, sincere, yet eloquent
in extemporaneous scientific discourse."
"This is
all very fine," said Bleeker, "but where will you find such a man within the
hour remaining to us?"
The door burst open.
Patrick and a stranger entered.
"Gentlemen," announced Patrick triumphantly,
"Professor Max Klapproth!"
As a man, the group stood
up. Patrick made the introductions.
Bleeker studied
the newcomer with interest. Professor Klapproth was a big man with shaven skull,
penetrating blue eyes, and an inquisitive tetrahedral nose. Bleeker had never
before met him, but knew him by reputation.
Professor Klapproth's texts on physical chemistry
had been standards in American universities for a quarter of a century. His
research and publications in heat transfer, catalysis, and vapor phase reactions
were classics, and his work on reaction rates had won him a Nobel prize. All of
this he had done with a purity, logic, and economy of concept that was at once
the inspiration and despair of his following throughout the world. He had turned
down innumerable offers from industry, but freely accepted consulting
assignments, on the theory that when he worked for everyone, he need not curb
his tongue for anyone. Despite his outspoken independence, and despite the fact
that he charged by the hour the fees asked by most other consultants by the day,
he was in such demand that he was able to select assignments that really
interested him. He delighted in going over a flow sheet for a few minutes and
then pointing out to the dismayed client errors in design that would require
hundreds of thousands of dollars to correct. He stood for no nonsense. There was
an apocryphal story that he had dismissed a graduate student who had proposed as
his Ph.D. thesis, "Free Will Aspects of Brownian Motion."
Yes, thought Bleeker, the boys have chosen well. He
felt a warm glow begin to diffuse through his chest. For the first time in three
days, he relaxed.
Patrick motioned Klapproth to a
chair.
"I don't think I'll be here long enough to
sit down, Mr. Patrick," said Klapproth curtly. He looked at his watch. "I hope
to be on the next plane to Kennedy Airport."
Celsus
glanced at the wall clock and smiled. "We'll have you on that plane, Professor
Klapproth."
"Is that the plant model?" demanded
Klapproth, pointing at the table.
"Yes." Dessaline
handed the letter opener to the professor.
"And you
want my opinion as to whether it will work?"
"Yes,"
said Bleeker.
"It can't possibly work," said
Klapproth. "I went over the flow sheet thoroughly with Mr. Patrick as he drove
me out from the airport. Someone is trying to make a fool out of you, Mr.
Bleeker. You got hold of me just in time." He tapped the model fluidizer with
the tip of the letter opener. "You'll need a fantastic heat input
here-- a BTU requirement that you could obtain only in a
semi-nuclear reaction. But instead of heating, you cool the reaction.
Also, you plan to dead-end spent catalyst continuously into this
vessel!"-- he tapped the alkahest container-- "which
will certainly overflow within a few hours. And another thing. Your reagents...
xerion... alkahest... there are no such things. And finally, by your own
admission, no silamine process can operate without being autocatalyzed by at
least one molecule of preexisting silamine. Which is a contradiction in terms...
an insuperable paradox."
"Might not all these
problems be overcome by the proper application of psi?" asked Patrick
innocently.
"...Psi?" Klapproth stared at the
patent director in open amazement. Then his face, forehead, and scalp slowly
turned red. "Gentlemen!" he sputtered. "What do you take me for!"
"Mr. Patrick," said Bleeker
soothingly-- while carefully avoiding Patrick's indignant
eyes-- "is our patent attorney."
"Oh,
of course," said Klapproth coldly. "I forgot." He looked about him suspiciously.
No one seemed to be disconcerted or chagrined. One or two seemed actually
pleased.
Celsus broke in hurriedly. "We have to
watch our timing very carefully now. Would you say, Professor Klapproth, that
any silamine plant represented by this model probably would not work?"
"It could not possibly work," snorted Klapproth.
"And when I say a thing is impossible, IT'S IMPOSSIBLE!"
"Completely hopeless, would you say," prodded
Patrick.
"Worthless, futile, useless..." echoed
Klapproth.
"Ridiculous?" murmured Dessaline.
"And stupid, idiotic, feckless, moronic, otiose,"
boomed Klapproth.
Patrick stared at the man,
transfixed by awe and admiration. Mark Twain, he thought, had not been more
eloquent in his mule-skinner days.
But Klapproth had
not finished. "A pixilated pile of junk... a raffish refugee from a scrap
heap... a haphazard of hare-brained hardware..."
"It's midnight in Czezhlo!" whispered Bleeker.
"Through the heart!" cried Dr. Dessaline.
Professor Klapproth plunged the letter opener into
the vitals of the model. And then immediately jumped back in horror. "Mr.
Bleeker," he gasped, "I don't know what came over me! I got carried away..." He
leaned over to pull the knife out.
Dessaline seized
his wrist. "Not just yet, Professor."
"But-- "
"No. We stick the pin in the doll. Now we wait. I
think we do not wait very long."
"Wait? For what?
What is this all about?"
"Dr. Dessaline means we are
now waiting for a transatlantic telephone call," said Bleeker. "But we don't
know how long it will take. Con, maybe you'd better take Professor Klapproth on
to the airport."
Klapproth looked uncertainly at the
faces around the table. He finally picked up his hat. It was clear that he
considered himself among madmen. "Telephone call?" he muttered to Patrick.
"Yes, a Mr. Sasanov, in Czezhlo," explained Patrick.
"Just now, you put a curse on his silamine plant, and Mr. Sasanov is going to
call Mr. Bleeker and tell him he'll pay up his back royalties, and then he'll
ask Mr. Bleeker to get the plant started again."
The
visitor stepped back uneasily. "Don't bother about me, Mr. Patrick. I'll get a
taxi at the desk."
The phone rang. Bleeker picked it
up. "Yes, operator, Bleeker here. By all means, put him on. Comrade Sasanov,
what a delightful surprise!"
In the excitement no
one noticed Professor Klapproth's flight.
Published by Alexandria Digital
Literature. (http://www.alexlit.com/)
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