The Eternal Flame

28

Carla threw the tarpaulin aside and dragged herself out of bed. Still half asleep, she approached the food cupboard and tugged on the handle, but the door refused to budge. She recalled sliding the bolt into place the night before: her reminder that this was meant to be a fast day.

Had it really been three days since the last one? Her gut squirmed in disbelief; it had learned to follow a daily cycle, but these calendrical variations were too arcane to be internalized. She ran a finger over the cross-bar at the side of the bolt, pondering excuses for breaking the rigid pattern. Today was her first appearance before the Council; any day without food was hard enough, but short of her life-or-death encounter with the Object she had never needed her wits about her more. She could eat today and fast tomorrow.

She tugged at the cross-bar and began guiding it through the little maze of obstructions she’d built that made it impossible to disengage the bolt unless she was fully awake. Halfway through, she paused. Breaking the pattern would set a precedent, inviting her to treat every fast day as a potential exception. Once the behavior that she was trying to make routine and automatic had to be questioned over and over again, the whole scheme would become a kind of torture, a dozen times harder to follow than it was already.

She returned the cross-bar to its starting position and dragged herself away from the cupboard. Once she was back to her old mass, she could resume the old routine: one loaf every morning, like clockwork.

Carla stepped forward and faced the assembled Councilors across the brightly lit chamber. Behind them, portraits of Yalda, Frido, and the dozens who’d followed them crowded the wall. That her old friend Silvano was among the Peerless’s twelve current leaders did nothing to put her at ease; it just made the encounter more complicated. Addressing an audience whose personal histories were uniformly opaque to her would at least have made it easier to stop fretting about these people’s individual agendas and just put the merits of her own case as best she could.

Assunto had warned her that if she wanted to be taken seriously she needed to quell any instinct for deference and resist averting her eyes. She followed his advice—but to stop herself feeling intimidated she focused her attention on the fellow crew members gathered behind her.

“So far as we understand it,” she began, “every solid and every gas in the cosmos is built from luxagens. From a cosmic perspective all luxagens are identical, but because their histories through four-space are marked with a kind of arrow—Nereo’s arrow—we can distinguish between those luxagens whose arrows point toward our future and those whose arrows point toward our past. By convention, we call the first kind ‘positive’ and the second ‘negative’.

“The peculiar histories of the Object and the Peerless have led to a curious disjunction: although our thermodynamic arrows of time agree, the arrows on our luxagens do not. The Peerless and everything it carries is built entirely from positive luxagens, the Object entirely from negative ones. And as the Gnat’s experiments showed us, if positive and negative luxagens are brought together they will annihilate each other. The purely chemical variation of the materials available to us is of no help here: no rock or resin, no plant material or animal product, no gas or smoke or dust will be immune to this effect.”

Carla allowed herself a quick glance at Silvano. His expression was grim, but she believed she was about to improve his mood considerably.

“There is one thing, though, that can safely interact with the material of the Object: light. Light does not itself produce light, so its history isn’t marked with Nereo’s arrow: there is no ‘positive’ light and ‘negative’ light. The starlight from ordinary and orthogonal stars falls on both us and the Object alike, causing no damage to either. So if we hope to make tools that will allow us to acquire and manipulate samples of the Object, I believe that will require a new source of light.”

Councilor Giusta interjected, “So you want to drill into the Object with the beam from a giant sunstone lamp?”

“No,” Carla replied. “Brute force like that wouldn’t get us very far. What we need is a light source whose output is more orderly than the beam from any kind of lamp.”

She summoned a sketch onto her chest.

“The luxagens in every solid are restricted to certain energy levels,” she said. “These levels are arranged in bands. The bands themselves are so widely spaced that a luxagen can only jump between them by creating several photons at once. That’s a very slow, inefficient process—which is what makes solids stable in the first place.

“Within each band, though, the levels are close enough for luxagens to move between them by emitting or absorbing single photons. Left to themselves, most luxagens will occupy the highest possible levels in their bands, because those at lower levels will spontaneously emit a photon and move up.” Carla hesitated, half expecting someone to challenge her on these events without a cause, but either the Councilors had heard of Assunto’s strange “zero-photon” light that filled the cosmos and shook every luxagen at every imaginable frequency… or they were simply willing to accept that there would always be some kind of disturbance pushing luxagens from the most precarious states into more stable positions.

“When a photon enters a solid, it can affect the luxagens in two different ways,” she continued. “If there are luxagens in a high energy level, they can absorb the photon and move down to a lower level. And if there are luxagens in a low energy level, they can emit another photon exactly like the first, and move up to a higher level. For either of these things to happen, the energy of the photon must match the difference in energy between the two levels.”

“The two processes push the luxagens in opposite directions, and all things being equal they’d both take place at exactly the same rate. But with luck, it might be possible to find a solid where things can be kept very far from equal. Suppose we have four different energy levels, and we illuminate the solid with light of the right frequency to push luxagens from the highest level down to the very lowest.”

“If nothing else was going on, the same light would also give rise to the opposite process: stimulating luxagens in the bottom level to jump back up to the top. But suppose the spontaneous jump from the bottom level to the one just above happens very quickly—so quickly that most luxagens end up at that second lowest level instead. From there, the luxagens will spontaneously jump up one more level, and then one more again. Once they reach the top, our light will push them to the bottom again.

“Now, the photons that are emitted spontaneously will have random phases and directions, just like the light from a lamp. But suppose we put this solid between a pair of mirrors that send the light from the middle transition back and forth through the material.”

“Each time the light is reflected back through the solid, it will prompt more luxagens from the second lowest level to jump up one step, emitting photons of the same phase and in the same direction as the one passing through. But we can avoid the unwanted reverse process—where the photons we send back get absorbed, instead of duplicated—if the transition from the third level to the top one happens fast enough. If that third level is kept almost empty, there’ll be almost no luxagens in a position to absorb the light.

“By separating the mirrors by an exact multiple of the wavelength of the light we’re trying to multiply, we can reinforce a mode that is entirely parallel and in phase. If we make one of the mirrors only partially reflective, the beam that emerges from this device should be aligned like nothing we’ve seen before. A lens will focus it down to a spot whose size is limited only by the laws of optics—allowing all the power in the beam to be concentrated on a target a fraction of a scant across. What’s more, the light itself will be comprised of an orderly series of wave fronts, maintaining a regular pattern over vastly longer times and distances than the jumble of waves that we get from a lamp. So instead of the light field changing direction at random, partly canceling out its own effects, the full strength of the field can be brought to bear at the focal point.

“The stronger the light field, the greater the pressure it exerts. So I believe there’s a chance that this ‘coherent light’ could be used in much the same way as we originally hoped to use air jets: to manipulate small samples of orthogonal matter without touching them.”

Carla spread her arms: she was finished. For a pause or two all the Councilors were silent, then Silvano asked, “How far does this take us toward a new engine design?”

Carla forced herself to meet his gaze. Engine design? She thought she’d just offered him a chance to salvage some dignity after his overblown claims for the Object, but apparently he wouldn’t be satisfied with anything less than an instant answer to the fuel problem. “If we can build this tool it might let us conduct preliminary experiments,” she said. “We could study the annihilation reaction between very small samples, under controlled conditions. But any talk about a new engine design would be premature, until we’ve done those experiments.”

Councilor Massimo said, “Would you ever seriously envision bringing orthogonal matter into the Peerless at all?”

“Not unless we’d developed an extremely reliable technology for handling it,” Carla replied.

“Reliable?” Massimo buzzed softly. “You’re holding a universal liberator in place using nothing but light. What happens when your light source fails?”

“If the sample was kept under weightless conditions in an evacuated container, there could be days to recover safely from the failure,” Carla said.

“But the whole point would be to use this in our engines!” Massimo reminded her. “When we’re firing the engines, we’re not weightless, are we?”

Hadn’t she just said that any talk of engine design would be premature? Carla struggled to find an answer that wouldn’t sound discourteous or uncooperative. “I can imagine an arrangement where a failure to contain the orthogonal matter would see it vented behind us—falling straight out of the engines into the void. But for now, all I’m talking about is a research program to try to build a coherent light source.”

“For argument’s sake,” Councilor Prospero said, “let’s suppose that we do find a way to fuel the Peerless with orthogonal matter. Where would that get us? If we could bring the unused portion of the Object back to the home world, would that be fuel enough to move the planet itself?”

“No.”

“Or enough to power a swarm of rockets that could evacuate every one of the ancestors?”

“I very much doubt it,” Carla replied.

“So what use is any of this?” Prospero asked bluntly.

“What use was there in launching the Peerless in the first place?” Carla snapped back. “All I’m proposing is the best means I can think of to improve our understanding of orthogonal matter. I can’t tell you where that might lead us—except to a much-needed reduction in our ignorance on the subject.”

Giusta said, “And we thank you for your proposal, Carla. I think it’s time we heard from the next witness.”

Carla retreated and stood beside Ivo. “Don’t let them get to you,” he said quietly. “They can’t help acting out their own internal squabbles, even when they have company.”

It was Tamara’s turn to address the Council. “If we do hope to exploit the Object,” she said, “or to conduct even the most modest experiments there, we’re going to need to establish some permanent means to navigate safely between the Object and the Peerless. Many of the beacons we launched for the first flight of the Gnat are running out of sunstone or failing in other ways—and they’re all spreading out too far to remain useful for much longer.

“What I propose is a new system of beacons, arranged in a grid that remains fixed relative to the Peerless. That will require manual supervision of each beacon’s deceleration; there’s no other way that we’d be able to get the final velocities low enough. But even if the Council chooses to take no further interest in the Object, I propose that we launch these beacons regardless. We ought to be able to navigate the void around the Peerless at will, whenever the need arises. Suppose another body like the Object is sighted. Consider how much easier it would be to deal with, if we could send observers out to get a fix on its location immediately.”

Councilor Dino said, “You want to keep another gross of beacons out there in the sky, stocked up with sunstone, flashing once a bell… just in case we need them?”

“That was my original plan,” Tamara confessed. “But after listening to my colleague here, I’ve had a much better idea.” She turned to face Carla. “Don’t worry, I’m not going to take you up on that ‘light clock’ nonsense you were feeding me on the Gnat.”

Dino was bemused. “It’s reassuring to hear that we’ll be spared nonsense, but—”

Tamara said, “We won’t need to put lamps in these beacons, or clockwork. Just optics! If Carla can build the light source she’s described, the beam it produces would only spread out a little as it traveled across the void. We could light the beacons from home: illuminate them all from the Peerless, keeping them simple and sparing us the need to refuel them or make repairs.”

Carla listened, delighted, as Tamara fleshed out her new scheme on the spot. Carla hadn’t given much thought to the infrastructure needed to make travel to the Object routine, but if she’d conspired with the navigators from the start they could not have made the case for her light source any stronger.

Ivo spoke next, then Ada. Though they all had different priorities, nobody was proposing a method of their own for manipulating luxagen-swapped rock. It would be light or nothing.

Giusta announced a recess in the hearing. Carla paced the chamber, wishing she’d brought her groundnuts along for comfort. Light or nothing—but most of the people she’d spoken to since the voyage had recoiled in horror when she explained just how dangerous orthogonal matter had turned out to be. And though Massimo’s line of questioning had been irritating, there was no denying that any attempt to exploit the stuff as fuel would carry enormous risks. Massimo and Prospero would not be alone in preferring to leave the Object sitting in the void, untouched.

Ivo approached her. “How would you identify the material for your light source?” he asked. “Just trial and error, or could you narrow down the candidates from their absorption spectra?”

“In principle the spectra should help,” Carla replied. “But to be honest, I’ve never been able to take a spectrum and turn it into a map of energy levels.”

Ivo was surprised. “It’s that difficult?”

Carla hummed softly. “Think of all the ways you can distribute luxagens among the energy levels. The only clear rule is that when the solid is in darkness, you’d expect all the luxagens in a given band to end up in that band’s highest level.”

Ivo pondered this. “Can’t you predict the number of luxagens per band? Or the number per valley?”

Carla said, “Remember the stability puzzle you posed, on the Gnat?”

“Why don’t solids implode under pressure?”

“I did the calculations,” she said, “and the problem didn’t go away: I can’t explain why there should be any limit on the number of luxagens you can squeeze into each valley. So here I am rattling on about new ways to exploit the energy levels in solids… but I can’t actually tell you why every planet in the cosmos doesn’t shrink down to the size of a grain of sand.”

“Hmm.” Ivo tried not to sound too pleased. “I’m glad I wasn’t just imagining the problem, but I’d be a lot happier if I knew how to fix it.”

“I think we’ve all missed something,” Carla admitted. “The wave model can’t be completely wrong, but there must be some detail, some innocent-sounding premise that we rely on without thinking—” She realized belatedly that her gut had started spasming from hunger, the deep muscular twitches sending visible waves across her chest. Ivo politely looked away while she regained control.

The Councilors filed back into the chamber. Carla couldn’t read the decision from their faces; Silvano did not look happy, but then neither did Massimo and Prospero.

Giusta spoke on the Council’s behalf. “We thank all the witnesses for their testimony, and assure them that we’ve carefully considered their proposals. The judgment of this Council is that we must develop technology to allow a program of cautious experimentation into the nature and potential uses of orthogonal matter. For the time being, we require all such experiments to be conducted either in the vicinity of the Object or at similar remove in the void, with a strict moratorium on the transport of orthogonal matter into the Peerless.

“The only practical means to advance this program known to the Council is Carla’s proposal to develop a coherent light source. Accordingly, we ask her to submit a detailed schedule of resources and personnel for approval.”

“Congratulations,” Ivo whispered.

“Since the other proposals put to us today are all contingent on the same technology,” Giusta continued, “we will defer any decision in those cases until Carla’s team are able to report on the success or failure of their efforts.”

Carla was ecstatic. As the Councilors departed she stood swaying, listening to the good wishes of Ada and Tamara but unable to respond.

The lights of the chamber flared, becoming painfully bright. Carla tried to close her eyes but if she succeeded it made no difference. A voice addressed her from the whiteness. “Are you all right? Carla?” Someone put a hand on her shoulder, shaking her gently.

The lights faded. Tamara’s face was in front of her.

“I’m fine,” Carla managed. “Things just took me by surprise, that’s all.”