Thrice upon a Time Page 3
"Aye," Charles conceded simply. He already knew enough not to press questions, and by nature he was not disposed to dispensing conventional wisdoms in the form of grandfatherly advice unless it was asked for.
By the early 2000s, a great deal of basic scientific research and many of the major research projects had come to be managed and funded by the larger multi-national corporations. This trend reflected the tendency of private industry to look more after itself and its basic needs as confidence in government initiative was eroded away by the effects of continual policy reversals, irresolution in the face of electoral whims, and stifling bureaucracy. To insure the supply of trained talent that these expanding ventures would demand, the corporations had become heavy investors in the educational system by the closing decades of the twentieth century; some had gone further by opening their own colleges and awarding their own degrees, which in certain sectors of research and industry had already come to be considered more valuable than some of the traditional diplomas.
Murdoch had studied mathematical physics at CIT and then moved on to the university founded by the Fusion Electric Corporation, a California-based company engaged in the commercial generation and distribution of fusion-generated power, to gain further experience in plasma techniques. There he had met Lee, who, it turned out, was a son of the corporation's Vice President of Research. Despite the opportunities implied by virtue of his father's position, Lee's main interests there lay with the computers, an addiction he had been nurturing since an early age. He didn't find the executive image challenging or inspiring and, like Murdoch, was preparing to go his own way; again like Murdoch, he didn't know where to. After completing their courses at the university they had stayed for a while at FEC, and then left to set up the consultancy at Palo Alto, on the bay shore a few miles south of San Francisco.
"So where are you from originally, Lee?" Charles asked. "Have you always lived on the West Coast?"
"I was born in Osaka, Japan," Lee replied. Charles's eyebrows rose in mild surprise. Lee explained, "My father was chief engineer on a joint U.S.-Japanese tokamak project out there for a number of years. He moved back to the States when they made him a V.P."
"You were very young while you were there, I take it," Charles said.
Lee shook his head. "He was there for quite a while. I was nearly fifteen when we moved back. All I got to see of the States before then was what I could squeeze into vacations."
"He was brought up on karate," Murdoch interjected. "I've seen him break concrete blocks with his fist."
"Good heavens!" Charles exclaimed. "You'll no doubt have a lot to talk about with Ted Cartland when he gets back, Lee. Did Murdoch tell you about Ted?"
"Is that the English guy that lives here?" Lee asked. "Used to be in the Air Force… been all over."
"Aye, that's him," Charles confirmed. "He was born in Malaya. His father was major in the Army, attached to the Australians. Ted's quite an interesting chappie."
"Where is he?" Murdoch asked.
"He's been away for a few days, working with one of the firms that we use for components," Charles replied. "He should be back tomorrow." The old man sat back in his chair and drained his glass. "Ah well, it sounds as if the two o' ye are still a solution waiting for the right problems to appear. But there's no rush. You know your own minds better than anyone. There's many a man in this world who's rushed headlong into the wrong thing without thinking, and then had to spend the next half of his life getting himself out o' the mess he's made." He leaned forward to refill the glass from a decanter beside him. The other two watched in silence, wondering when he would get around to the topic of their visit and the reason for it.
Charles leaned back and settled himself more comfortably into the chair with his glass. "So, Lee," he said, as if reading their thoughts. "How much do you know about the background to what Ted and I have I been up to here?"
"Doc's talked to me quite a bit about it off and on," Lee replied, uncrossing his legs and straightening up in the chair. "I know you spent a lot of time in the States at places like MIT, Princeton, and Stanford… and after that at NASA and the Defense Department, before you came back here. I've read the papers you published on the isolation of free quarks. That was at Stanford, wasn't it? I guess it must have started somewhere around there."
"That was in the eighties," Charles said, nodding. "But I suppose you're right in a way: That did lay the foundation. But the really interesting things started happening about ten years ago. I was with NASA by then, but Stanford was still carrying out experiments involving quarks. Some of the experiments were giving anomalous results that nobody could explain, so they asked me to go down and have a look at them because of the work I'd been involved with there previously."
"Something analogous to nuclear resonances, wasn't it?" Lee said.
"Aye. They occurred in connection with nucleons decaying into three quarks. The specific cases were when a nucleon broke down first into two quarks plus an intermediate particle, and then the intermediate particle transformed into the third quark. The 'quason,' which was the name given to the intermediate particle that had been tentatively postulated, had never actually been detected or observed as such. As you say, it was like a nuclear resonance, but its lifetime was so many orders of magnitude shorter even than that of a resonance that some people were doubting it existed at all. It was simply an entity with certain mathematical attributes needed to account for the slight delay between the appearances of the first two quarks and the third one. The problem was that, in the light of the more accurate measurements that had been made by that time, it was impossible to assign a set of properties to the quason that were internally consistent. There was always something that contradicted the experimental data."
"Yes, I remember reading about that in something that Doc showed me," Lee said. "Didn't you offer an interpretation that didn't require quasons at all?"
"That's right," Charles replied. "But the alternative interpretation that I proposed called for a rather unusual assumption: that all three quarks were created simultaneously, but the data defining the first two had propagated backward in time. The magnitudes involved were of the order of ten-to-the-minus-thirty-second—about the time light would take to cross a quark—but real nevertheless.
"Results of other experiments from other places too involved the same kind of thing," Charles went on. "To cut a long story short, it turned out that they could all be interpreted consistently on the basis of information propagating forward or backward through time, without quasons coming into it at all. So there were two explanations; one was testable but unsatisfactory, the other consistent but apparently nonsensical. As you can imagine, there was a lot of arguing going on around then."
"That's something I was meaning to ask about," Lee said. "This would have been around when, ten years ago?"
"Aye. Around the turn of the century."
"I checked through a lot of the papers and journals from around then, but I couldn't find much mention of it. The only things I saw were the things that Doc showed me, which I guess he got from you. How come? And if you've proved now that the no-quason interpretation is correct, how come the traditional version is still accepted practically everywhere?"
"Ah well… " Charles paused to sip his brandy. "There were two reasons. First there was the obvious thing: A lot of scientists opposed the theory on principle. I can't say I blame them really. It conflicted with all the accepted notions of causality, and the overwhelming tendency among most of them was to stick with the choice that at least retained familiar concepts and made sense, even if it was giving ragged results. It wouldn't have been the first time in the history of science that that had happened. So, I suppose, I was part of a very small minority… but then maybe I always was an awkward cuss.
"Then on top of that I was just in the process of moving from NASA to the Defense Department. There were all kinds of security regulations, classified information restrictions and all that kind o' drivel to contend with, an
d some silly ass somewhere got it into his head that this particular topic might have defense implications. I can't for the life of me imagine why, but that was enough to keep most of the story out of the limelight.
"Anyhow, I was convinced I was on the right track, never mind what the rest of them were saying, and through the work I was doing at the Department, I kept in touch with a few people at places like Los Alamos who thought the same way. You see, there were a few unofficial experiments going on here and there even though it was supposed to be restricted work. Eventually everything started coming out of the woodwork and the whole thing turned political. I got fed up with the whole damn business and came back here to be left alone. As Murdoch has told you, I've worked here ever since. It must be, oh… three years or thereabouts now."
"And has this guy Ted Cartland been here that long too?" Lee asked.
Charles nodded. "I got to know Ted while I was still at NASA. He was at Cornell, involved with designing orbiting detectors for X-ray astronomy. He'd been mixed up with shuttle and satellite design and testing while he was in the RAF… a lot of liaison with other countries and that kind of thing. He'd worked with the people at Cornell in the past, knew them all, and moved there when he left the RAF. They were doing work for NASA, and that was how we got to know each other.
"When I decided to move back to Scotland, I had the feeling that I wasn't far from the point of producing a device to test the theory I'd been working on. Now I'm not much of a practical man when it comes to putting together gadgets and electronics and such, but Ted is. So I invited him to come back as well to take care of that side of things."
With that, Charles emptied his glass for the second time, set it down on the edge of the hearth, and stood up. "Anyhow, enough of all this witterin' on like three old women," he said. "You must be wondering if I'm ever going to show you the machine itself. Let's get along downstairs to the lab."
Chapter 4
The lab was much as Murdoch remembered it from his last visit, although it seemed to have sprouted a few additional items of equipment. One side of the room was taken up by a large workbench running almost the full length of the wall, littered with tools and unidentifiable electronics assemblies in all stages of confusion. Along the back of the bench stood a line of stacked waveform analyzers, synthesizers, power supplies, and other instruments studded with buttons and covered in screens, and interconnected by unraveled rainbows of tangled wire. A section of ceiling-high storage racks, crammed with books, boxes, and components, occupied the space between the bench and the door; the wall opposite supported a large blackboard, covered with formulas and calculations, above a long metal table sagging beneath a load of charts and papers.
The machine itself stood along the wall facing the door. It consisted of a main display and control console; a DEC PDP-22/30, obtained secondhand through one of Charles's friends who worked for British Admiralty research and complete with its own high-density memory subsystem, plus some options from other sources; an auxiliary terminal connected to the national datagrid; a trio of enclosed, four-foot-high cubicles; and a jumble of electronics strung together in open racks. A cluttered desk beside the operator's chair at the main console and a set of heavy cables running through the wall to the generators in the next room completed the scene.
Saying nothing, Charles walked to the console and brought the system to life with a few rapid taps of his fingers. He glanced at the main screen, issued another command-string, and cut off the display. A few winking lights on the main panel were all that was left to show that the system was active. Then a sheet of glossy, plasticized paper slid from the hardcopy slot and into the tray beneath. Charles picked it up, ran his eye quickly over whatever was printed on it, folded it in two with the printed side inward, and then looked up.
"Now, Murdoch," he said. "Would you be so kind as to sit yourself down there at the console." Murdoch obliged. Lee moved forward to watch over his shoulder. "There's a clock-readout counting down seconds at the top of the screen there," Charles went on. "When it gets to zero, I want you to type in a string of numbers and letters, up to a maximum of six characters."
Murdoch frowned up at him. "What, anything? No particular length?"
"It does not matter. Anything you like."
Murdoch shrugged. "Okay." He waited for the zero to appear, and then rattled in a random sequence. The main screen in front of him displayed:
2H7vi9
"That it?" he inquired.
"That'll do," Charles said. He unfolded the sheet of hardcopy that he had been holding and passed it to Murdoch without saying anything. Murdoch looked at it; Lee gasped audibly behind him. The sheet read:
1 January 2010, 2038.00 Hours.
TEMPORAL RETROTRANSMISSION TEST. No File Reference.
Manual Input Sequence. Transmission advance 60 seconds.
2H7vi9
END
Although they had been more or less prepared for what to expect, Murdoch and Lee were too stunned for the moment to say anything. Talking about this kind of thing in the car from Edinburgh was one thing; seeing it demonstrated was quite another.
"It works with computer-transmitted numbers too," Charles commented matter-of-factly after a few seconds. Murdoch continued to stare with disbelieving eyes at the sheet of paper in his hand.
Lee looked slowly up at Charles, his brows knotted in bemusement. His lips moved soundlessly for a second or two. Then he whispered, "That… that was printed before Doc even knew what you were going to ask him to do. This really isn't some kind of conjuring trick? Are you saying those characters were sent backward through time?"
"Aye. Sixty seconds, to be exact." Charles looked back at him impassively.
"They exist!" Murdoch breathed, finding his voice at last. "The tau waves that you've always predicted—they really do exist!"
"So it would appear," Charles agreed.
As Murdoch slumped back in the chair and began turning over in his mind what it all meant, Lee gazed with new respect at the array of equipment surrounding him. It didn't look particularly spectacular; in fact, as far as external appearances were concerned, it could have been any one of a hundred lab lash-ups that he had seen before in all kinds of places. And yet what he had just observed had shaken him more that anything he could remember in his twenty-eight years. Murdoch had told him enough about Charles's work for him to have a general idea of how the machine worked, but inwardly he had never believed that anything would come of it.
The influence that propagated through time originated with the annihilation of matter, that is, the conversion of mass into energy. The mass-energy equivalence relationship became nonlinear at high energy densities; under extreme conditions, less energy appeared for a given amount of mass than traditional theory said ought to. The hadron decay into quarks that Charles had mentioned had been the first instance to be noticed; at the high energy density prevailing inside the infinitesimally small volume of the interaction, less gluon binding energy had been measured than had been predicted. Where did the rest go? According to the theory developed by Charles and his colleagues, it had propagated away as tau waves and rematerialized as mass-energy at another instant in time. Because of the small scale of the events, the resulting time shifts had been of the minute order that Charles had described. But at higher energy densities they promised to be more.
Charles's machine achieved high energy densities by focusing an intense beam of positrons onto a magnetically confined concentration of electrons. It employed a laserlike pumping technique perfected in the USSR about fifteen years before to generate energetic gamma photons, which in turn bred electron-positron pairs. The positrons were channeled by tuned fields and directed at a confined, negative space-charge to produce the sustained annihilations that the process demanded. Unlike the giant particle accelerators, which were designed to produce a few isolated events but at enormous energies, this machine produced many events at moderate energies within a tiny volume of space; it was the energy density that m
attered. That was why the machine didn't need to be as large as the whole Storbannon estate; it also explained why the discrepancies attributable to the tau waves had remained undetected through the earlier decades of particle physics.
The result of the annihilation process was a burst of conventional energy, which was absorbed by a cooling arrangement, and a pulse of tau radiation that would reappear in detectable form elsewhere along the time line. The energy of the gamma photons could be varied, enabling the point in the future or in the past at which the tau pulse would materialize to be adjusted with a high degree of precision. The machine therefore functioned more like a telephone than a radio; the sender could "aim" a pulse at a selected instant, in the past for example, but a receiver in the past, or future, had no means of "tuning in." A receiver could do nothing but wait for incoming calls.
Lee was unable to identify which of the cubicles and racks contained which components, but he would have ample time in the days ahead to become familiar with such details. For the time being he just wanted to know more about the basic principles.
"How is the character information modulated onto the positron beam?" he asked Charles. "Do you interrupt it somehow to get a serial code?"
"That would introduce too many complications, as you'll appreciate later on," Charles replied, shaking his head. "It sends one data-frame in parallel code. The beam is split forty-eight ways to give forty-eight simultaneous tau pulses. Thirty-six of them are used to encode six-bit characters, which is why we're restricted to a six-character message at the moment. The other twelve bits are for control and timing signals."
"So the sequence that Doc keyed in was stored first, then transmitted all in one block."
"That is correct," Charles said.
Lee nodded slowly and rubbed his chin while he looked at the equipment again. The shock was wearing off, and he was beginning to think more coherently. "So what's its… its range?" he asked. "How far back can it send?"