15. Main Control
STONE SAT WITH LEAVITT IN THE MAIN CONTROL room, looking into the inner room with the capsule. Though cramped, main control was complex and expensive: it had cost $2,000,000, the most costly single room in the Wildfire installation. But it was vital to the functioning of the entire laboratory.
Main control served as the first step in scientific examination of the capsule. Its chief function was detection-the room was geared to detect and isolate microorganisms. According to the Life Analysis Protocol, there were three main steps in the Wildfire program: detection, characterization, and control. First the organism had to be found. Then it had to be studied and understood. Only then could ways be sought to control it.
Main control was set up to find the organism.
Leavitt and Stone sat side by side in front of the banks of controls and dials. Stone operated the mechanical hands, while Leavitt manipulated the microscopic apparatus. Naturally it was impossible to enter the room with the capsule and examine it directly. Robot-controlled microscopes, with viewing screens in the control room, would accomplish this for them.
An early question had been whether to utilize television or some kind of direct visual linkup. Television was cheaper and more easily set up; TV image-intensifiers were already in use for electron microscopes, X-ray machines, and other devices. However, the Wildfire group finally decided that a TV screen was too imprecise for their needs; even a double-scan camera, which transmitted twice as many lines as the usual TV and gave better image resolution, would be insufficient. In the end, the group chose a fiber optics system in which a light image was transmitted directly through a snakelike bundle of glass fibers and then displayed on the viewers. This gave a clear, sharp image.
Stone positioned the capsule and pressed the appropriate controls. A black box moved down from the ceiling and began to scan the capsule surface. The two men watched the viewer screens:
“Start with five power,” Stone said. Leavitt set the controls. They watched as the viewer automatically moved around the capsule, focusing on the surface of the metal. They watched one complete scan, then shifted up to twenty-power magnification. A twenty-power scan took much longer, since the field of view was smaller. They still saw nothing on the surface: no punctures, no indentations, nothing that looked like a small growth of any kind.
“Let’s go to one hundred,” Stone said. Leavitt adjusted the controls and sat back. They were beginning what they knew would be a long and tedious search. Probably they would find nothing. Soon they would examine the interior of the capsule; they might find something there. Or they might not. In either case, they would take samples for analysis, plating out the scrapings and swabs onto growth media.
Leavitt glanced from the viewing screens to look into the room. The viewer, suspended from the ceiling by a complex arrangement of rods and wires, was automatically moving in slow circles around the capsule. He looked back to the screens.
There were three screens in main control, and all showed exactly the same field of view. In theory, they could use three viewers projecting onto three screens, and cover the capsule in one third the time. But they did not want to do that— at least not now. Both, men knew that their interest and attention would fatigue as the day wore on. No matter how hard they tried, they could not remain alert all the time. But if two men watched the same image, there was less chance of missing something.
The surface area of the coneshaped capsule, thirty-seven inches long and a foot in diameter at the base, was just over 650 square inches. Three scans, at five, twenty, and one hundred power, took them slightly more than two hours. At the end of the third scan, Stone said, “I suppose we ought to proceed with the 440 scan as well.”
“But?”
“I am tempted to go directly to a scan of the interior. If we find nothing, we can come back outside and do a 440.”
“I agree.”
“All right,” Stone said. “Start with five. On the inside.”
Leavitt worked the controls. This time, it could not be done automatically; the viewer was programmed to follow the contours of any regularly shaped object, such as a cube, a sphere, or a cone. But it could not probe the interior of the capsule without direction. Leavitt set the lenses at five diameters and switched the remote viewer to manual control. Then he directed it down into the scoop opening of the capsule.
Stone, watching the screen, said, “More light.”
Leavitt made adjustments. Five additional remote lights came down from the ceiling and clicked on, shining into the scoop.
“Better?”
“Fine.”
Watching his own screen, Leavitt began to move the remote viewer. It took several minutes before he could do it smoothly; it was difficult to coordinate, rather like trying to write while you watched in a mirror. But soon he was scanning smoothly.
The five-power scan took twenty minutes. They found nothing except a small indentation the size of a pencil point. At Stone’s suggestion, when they began the twenty-power scan they started with the indentation.
Immediately, they saw it: a tiny black fleck of jagged material no larger than a grain of sand. There seemed to be bits of green mixed in with the black.
Neither man reacted, though Leavitt later recalled that he was “trembling with excitement. I kept thinking, if this is it, if it’s really something new, some brand new form of life…”
However, all he said was, “Interesting.”
“We’d better complete the scan at twenty power,” Stone said. He was working to keep his voice calm, but it was clear that he was excited too.
Leavitt wanted to examine the fleck at higher power immediately, but he understood what Stone was saying. They could not afford to jump to conclusions— any conclusions. Their only hope was to be grindingly, interminably thorough. They had to proceed methodically, to assure themselves at every point that they had overlooked nothing.
Otherwise, they could pursue a course of investigation for hours or days, only to find it ended nowhere, that they had made a mistake, misjudged the evidence, and wasted time.
So Leavitt did a complete scan of the interior at twenty power. He paused, once or twice, when they thought they saw other patches of green, and marked down the coordinates so they could find the areas later, under higher magnification. Half an hour passed before Stone announced he was satisfied with the twenty-power scan.
They took a break for caffeine, swallowing two pills with water. The team had agreed earlier that amphetamines should not be used except in times of serious emergency; they were stocked in the Level V pharmacy, but for routine purposes caffeine was preferred.
The aftertaste of the caffeine pill was sour in his mouth as Leavitt clicked in the hundred-power lenses, and began the third scan. As before, they started with the indentation, and the small black fleck they had noted earlier.
It was disappointing: at higher magnification it appeared no different from their earlier views, only larger. They could see, however, that it was an irregular piece of material, dull, looking like rock. And they could see there were definitely flecks of green mined on the jagged surface of the material.
“What do you make of it?” Stone said.
“If that’s the object the capsule collided with,” Leavitt said, “it was either moving with great speed, or else it is very heavy. Because it’s not big enough—”
“To knock the satellite out of orbit otherwise. I agree. And yet it did not make a very deep indentation.”
“Suggesting?”
Stone shrugged. “Suggesting that it was either not responsible for the orbital change, or that it has some elastic properties we don’t yet know about.”
“What do you think of the green?”
Stone grinned. “You won’t trap me yet. I am curious, nothing more.”
Leavitt chuckled and continued the scan. Both men now felt elated and inwardly certain of their discovery. They checked the other areas where they had noted green, and confirmed the presence of the patches at higher magnification.
But the other patches looked different from the green on the rock. For one thing, they were larger, and seemed somehow more luminous. For another, the borders of the patches seemed quite regular, and rounded.
“Like small drops of green paint, spattered on the inside of the capsule,” Stone said.
“I hope that’s not what it is.”
“We could probe,” Stone said.
“Let’s wait for 440.”
Stone agreed. By now they had been scanning the capsule for nearly four hours, but neither man felt tired. They watched closely as the viewing screens blurred for a moment, the lenses shifting. When the screens came back into focus, they were looking at the indentation, and the black fleck with the green areas. At this magnification, the surface irregularities of the rock were striking— it was like a miniature planet, with jagged peaks and sharp valleys. It occurred to Leavitt that this was exactly what they were looking at: a minute, complete planet, with its life forms intact. But he shook his head, dismissing the thought from his mind. Impossible.
Stone said, “If that’s a meteor, it’s damned funny-looking.”
“What bothers you?”
“That left border, over there.” Stone pointed to the screen. “The surface of the stone— if it is stone— is rough everywhere except on that left border, where it is smooth and rather straight.”
“Like an artificial surface?”
Stone sighed. “If I keep looking at it,” he said, “I might start to think so. Let’s see those other patches of green.”
Leavitt set the coordinates and focused the viewer. A new image appeared on the screens. This time, it was a close-up of one of the green patches. Under high magnification the borders could be seen clearly. They were not smooth, but slightly notched: they looked almost like a gear from the inside of a watch.
“I’ll be damned,” Leavitt said.
“It’s not paint. That notching is too regular.”
As they watched, it happened: the green spot turned purple for a fraction of a second, less than the blink of an eye. Then it turned green once more.
“Did you see that?”
“I saw it. You didn’t change the lighting?”
“No. Didn’t touch it.”
A moment later, it happened again: green, a flash of purple, green again.
“Amazing.”
“This may be—”
And then, as they watched, the spot turned purple and remained purple. The notches disappeared; the spot had enlarged slightly, filling in the V-shaped gaps. It was now a complete circle. It became green once more.
“It’s growing,” Stone said.
***
They worked swiftly. The movie cameras were brought down, recording from five angles at ninety-six frames per second. Another time-lapse camera clicked off frames at half-second intervals. Leavitt also brought down two more remote cameras, and set them at different angles from the original camera.
In main control, all three screens displayed different views of the green spot.
“Can we get more power? More magnification?” Stone said.
“No. You remember we decided 440 was the top.”
Stone swore. To obtain higher magnification, they would have to go to a separate room, or else use the electron microscopes. In either case, it would take time.
Leavitt said, “Shall we start culture and isolation?”
“Yes. Might as well.”
Leavitt turned the viewers back down to twenty power. They could now see that there were four areas of interest, three isolated green patches, and the rock with its indentation. On the control console, he pressed a button marked CULTURE, and a tray 4t the side of the room slid out, revealing stacks of circular, plastic-covered petri dishes. Inside each dish was a thin layer of growth medium.
The Wildfire project employed almost every known growth medium. The media were jellied compounds containing various nutrients on which bacteria would feed and multiply. Along with the usual laboratory standbys— horse and sheep blood agar, chocolate agar, simplex, Sabourad’s medium— there were thirty diagnostic media, containing various sugars and minerals. Then there were forty-three specialized culture media, including those for growth of tubercule bacilli and unusual fungi, as well as the highly experimental media, designated by numbers: ME-997, ME-423, ME-A12, and so on.
With the tray of media was a batch of sterile swabs. Using the mechanical hands, Stone picked up the swabs singly and touched them to the capsule surface, then to the media. Leavitt punched data into the computer, so that they would know later where each swab had been taken. In this manner, they swabbed the outer surface of the entire capsule, and went to the interior. Very carefully, using high viewer magnification, Stone took scrapings from the green spots and transferred them to the different media.
Finally, he used fine forceps to pick up the rock and move it intact to a clean glass dish.
The whole process took better than two hours. At the end of that time, Leavitt punched through the MAXCULT computer program. This program automatically instructed the machine in the handling of the hundreds of petri dishes they had collected. Some would be stored at room temperature and pressure, with normal earth atmosphere. Others would be subjected to heat and cold; high pressure and vacuum; low oxygen and high oxygen; light and dark. Assigning the plates to the various culture boxes was a job that would take a man days to work out. The computer could do it in seconds.
When the program was running, Stone placed the stacks of petri dishes on the conveyor belt. They watched as the dishes moved off to the culture boxes.
There was nothing further they could do, except wait twenty-four to forty-eight hours, to see what grew out.
“Meantime,” Stone said, “we can begin analysis of this piece of rock— if it actually is rock. How are you with an EM?”
“Rusty,” Leavitt said. He had not used an electron microscope for nearly a year.
“Then I’ll prepare the specimen. We’ll also want mass spectrometry done. That’s all computerized. But before we do that, we ought to go to higher power. What’s the highest light magnification we can get in Morphology?”
“A thousand diameters.”
“Then let’s do that first. Punch the rock through to Morphology.”
Leavitt looked down at the console and pressed MORPHOLOGY. Stone’s mechanical hands placed the glass dish with the rock onto the conveyor belt.
They looked at the wall clock behind them. It showed 1100 hours; they had been working for eleven straight hours.
“So far,” Stone said, “so good.”
Leavitt grinned, and crossed his fingers.