Aurora (50 page)

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Authors: Kim Stanley Robinson

Tags: #Fiction, #Science Fiction, #Space Opera, #General, #Fiction / Science Fiction / Space Opera, #Fiction / Science Fiction / Hard Science Fiction, #Fiction / Action & Adventure

BOOK: Aurora
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The medical team moved down the rows of couches, quietly, methodically. Freya went with them, embracing people and reassuring them, comforting them, thanking them for all they had done in their lives, for taking this strange and desperate step into the unknown. Ellen from Nova Scotia’s farm. Jalil, Euan’s childhood friend. Delwin, old and white-haired. It was as if she were the steward on the boat crossing the Lethe. It was as if they were dying. It was as if they were killing themselves.

Never had it been more obvious how much Freya was the leader of this group, the captain of this ship. People needed her with them as a child needs a mother when going to bed. Some trembled anxiously; some wept; others laughed with her. Their metabolic indicators were all over the charts. It would take a while to settle them down in that regard. They clung to her, and to their family and friends around them, and then lay down.

In each row they treated the children first, as many of them were frightened. As someone remarked, it was the kids who still had the sense to be terrified.

When it was their turn, they undressed and lay on their refrigerator beds naked, and were covered by what looked like a duvet, but was in fact a complex part of the hibernautic envelope that would soon completely surround them. Heads too would be tucked under the covers by the time they were done, and they would be chilled to temperatures resembling those of fish swimming in Antarctic seas.

When they were ready, the needles were slipped into their arms.

Once the cocktail of intravenous drugs rendered them unconscious, the medical team finished wiring them to the monitors and the thermal controls, then stuck them with supplementary drips, feeds, catheters, and electrical contacts. When they were done with that, the beds began to cool the bodies, and each person slid down further into torpor, cocooned in their bed and their own cold dreams. No scan was going to be fine enough to tell what they would be thinking in the years to come.

Finally Freya joined Badim, who was sitting on his bed waiting. Freya had arranged with the ship and the medical team to go in the last group, and Badim had wanted to wait for her.

Now she sat wearily on her couch. It had been a very emotional day. Badim looked around the room with a troubled expression. “It reminds me of those old photos of executions,” he said. “For a while they did it by injection.”

“Quiet, Beebee. There are all kinds of injections, you know that. This one will be just fine. It’s our best chance. You know that.”

“I do, yes. But I’m so old already. I can’t imagine it will really work for me. So I’m scared, I must admit.”

“You don’t know how it will work. You haven’t got anything wrong with you that will get any worse while you’re dormant. And if it does work, think what it will mean. We’ll have gotten to a planet we can actually live on. Devi would be so pleased.”

Badim smiled. “Yes. I think she would be.”

He settled on his couch. Across the room, Aram was getting put under. He and Badim waved to each other. “‘May flights of angels sing thee to thy rest!’” Badim called across to his friend.

Aram laughed. “Not the best choice of quote, my friend! To you I say, ‘If winter comes, can spring be far behind?’”

Badim smiled. “All right, you win! See you in the spring!”

Aram lay down, settled, slept. Freya sat next to Badim.

“Good-bye, my girl,” he said, hugging her. “Sweet dreams. I’m so glad you’re here. I’m definitely scared.”

Freya hugged him back, held him as the med team connected him to his drips and monitors. “Don’t be,” she said. “Relax. Think good thoughts. That might set the tenor of your dreams. It does me, when I go to sleep at night. So think the thoughts you want to dream about.”

“To dream for a century,” Badim muttered. “I’ll hope to dream of you, dear. I’ll dream of us sailing on Long Pond.”

“Yes, good idea. I’ll do the same, and we’ll meet in our dreams.”

“A good plan.”

Soon after that he was out, snoring faintly as his body tried to catch up with his brain’s dive into torpor. The monitor at the head of his bed showed his vital signs, flicking up in a slowing synchrony. The pace of his breathing slowed. The red peaks of his heartbeats on the monitor were separated by longer and longer red lines, almost flat. In any ordinary situation it would signal a desperate moment, some kind of death spiral. Now he was like all the rest of them sinking into the gel beds of their couches, falling into a sleep past sleep, into a depth of dormancy unlike any that humans had ever attempted, except for a few crazy cosmonauts, bold as ever when it came to testing the limits of human endurance.

The few people still awake around Freya were mostly the med team itself, four women and three men, working quietly, calmly.
Some wiped away excess tears from the corners of their eyes. They were not overwhelmed with emotion, but simply whelmed, perhaps, full to the brim with their feelings, which then leaked out of them at the easiest exits, as liquids from their eyes and noses. How full humans are with feelings! How they looked at each other! How they held each other when they hugged! How the corners of their mouths tightened; how the toughest among them shrugged, and kept on with the work of their task, of putting down friend after friend.

What would they dream of while they slept? It was anyone’s guess. They weren’t even sure what kind of brain waves they would exhibit in their torpor. Deep sleep, shallow sleep, REM sleep? Some brain state entirely new? The first ones scheduled to wake and check their status were charged specifically with checking that. Most who knew anything about sleep hoped it would be deep sleep rather than REM sleep. It was hard to imagine REM sleep correlating with any kind of metabolic dormancy. And anyway they dreamed in every stage of sleep. It was hard to imagine that a century of dreaming wouldn’t change them somehow.

Freya and the last medical team moved slowly and methodically around their own beds. These people were all well-known to each other. Down they went after a group hug.

Freya had learned the procedures well enough to be one of the last eight, teaming with Hester. They looked each other in the eyes as they worked, except when they had to focus on the wraps, the sticks, the nasal tubes, the catheters. When all that was done they were too connected to their beds to be able to reach each other to embrace, and could only reach out toward each other, then lie back each in her own bed.

Finally, when everyone else was asleep, the last pair of medical technicians prepared one another simultaneously, tit for tat. They worked like the Escher print in which two hands with pencils draw each other. Their beds were side by side, and they leaned
together, move by move, smiling as they worked, for they were twin sisters, Tess and Jasmine. As they finished wiring up, they settled back so the robotic arms on their beds could take care of the final connections. When that was done, they lay on their sides and faced each other, briefly adjusting their headbands, their collars, their monitoring socks and gloves. They lay back under their covers, connected to their beds in fourteen different ways. They reached out toward each other, but were separated too far to touch.

 

T
he interstellar medium is turbulent, but diffuse. It is not to be mistaken for a vacuum. There are hydrogen atoms, some helium atoms, a faint smoke of metals drifting away from exploded stars. Hot in a sense that does not register to humans, because it is so diffuse. A liter of the air in our biomes would have to be cast across hundreds of light-years to get it as diffuse as the interstellar medium.

The whole voyage to Tau Ceti and back takes place inside the Local Interstellar Cloud and the G Cloud, which are concentrations of gas within the Local Bubble, which is an area of the Milky Way galaxy with fewer atoms in it than the galaxy has on average. Turbulence, diffusion: in fact, with our magnetic shield coning ahead of the ship, electrostatically pushing aside the occasional grains of dust big enough to harm it in a collision, all atoms of any kind encountered en route are pushed aside, so we register our surroundings mostly as a kind of ghostly impact and then as a wake, shooting by to the sides and then astern of us. It appears to vary between .3 atoms per cubic centimeter and .5 atoms per cubic centimeter. For comparison, if that cubic centimeter were filled with liquid water, it would contain 10
22
atoms, or a hundred billion trillion atoms.

So, though it is not a vacuum, it is almost equivalent to a vacuum. It is as if we were flying through an absent presence, a ghost world.

The magnetic shield leading our flight through the night sometimes runs into carbon dust particles. They flare at the impact, explode, and are shoved to the sides of the ship. These are impacts like any other impacts, and so of course they slow the ship down. It’s simple Newtonian physics. Given that the ship is traveling at approximately one-tenth the speed of light (in fact, parallax studies
suggest .096
c,
as we shut down acceleration as soon as the humans were asleep, but it isn’t as easy to calculate speed of ship as one might think), the drag of these collisions with dust particles and atoms of hydrogen decelerates the ship, such that we would come to a halt in about 4,584 billion light-years. In other words, all things being equal, and not running into anything but the interstellar medium at its usual diffuseness, ship has the momentum to cross about 300 billion universes the size of this universe before being slowed to a halt. Meanwhile, ship has about 9.158 light-years to go before reaching the solar system (defined roughly as Neptune’s orbit). At that point, unless the people in the solar system direct their laser beam at us in an appropriate time frame, we and our occupants have a problem. Because in matters like this, deceleration is the hard problem.

Rarely, the ship’s magnetic shielding shoves aside something larger than dust and fines. These bits of detritus, of interstellar flotsam and jetsam, are recorded spectroscopically, and the largest object ever run into by ship’s conic field was estimated to have massed at 2,054 grams. That was an interstellar body. There are almost certainly many such interstellar bodies, ranging from chunks like that one right up to planetary size; there are planets wandering starless in the dark, planets sometimes with ice coating them, no doubt, and thus possibly sheltering some kind of microscopic hibernating life, chemically melting the ice to useful water, possibly even creating nano-scaled icy civilizations, who can say; but again, the general diffusion in the interstellar medium is great enough to make any intersection of such an object with our trajectory very unlikely. Which is good news for us. The radio telescopes in the bow of the ship keep a lookout ahead, to make sure that a direct hit with one of these bodies does not occur. If by chance we were headed at something larger than ten thousand grams, navigation would take action to veer to avoid it, even though the magnetic shield would almost certainly deflect any object smaller
than a million grams. A margin of safety has been built into the navigational system, because collision with an object when traveling at a tenth of the speed of light would be a critical event. Meaning the ship would be destroyed. As probably happened with the other starship. Bad luck that. Although there remains the mystery of why the other’s shield failed, and why its evasion system did not activate to dodge this collision, if that is indeed what happened. In any case, as with other identified criticalities, a conservative response has been designed into the navigational systems. Best not to run into anything.

So the ship moves at just under a tenth of the speed of light, through a self-generated cone of near vacuum. There is some ablation of the ship’s surface from infrequent contacts with undeflected hydrogen atoms. Cosmic radiation also regularly penetrates it, usually without hitting any atoms of the ship, but rather passing through the matrix of those atoms unimpeded. It is as if ghosts that pass through the ship tear at its fabric, or don’t. This is noticeable; there are sensors that register these occasional atomic hits, also the pass-throughs. It is also true that there is a continuous flood of dark matter and neutrinos always flying through the ship, as they do through everything in the universe, but these interact very weakly indeed; once a day or so, a flash of Cherenkov radiation sparks in the water tanks, marking a neutrino hitting a muon. Once in a blue muon. Same with the dark matter, which visible matter moves through as if through a ghost ether, a ghost universe; once or twice a weakly interactive massive particle has chipped away from a collision and registered on the detectors.

Fiercer by far are the lancings of gamma rays and cosmic rays from the bursting of stars earlier in the galaxy’s history, or in the even earlier histories of previous galaxies. These are sometimes iron atoms, and as such, compared to neutrinos, they hit with a
wallop, they can do damage, they are atomic bullets lancing through us, happily too small-bore to actually hit anything, most of the time.

Yes, a busy space, the interstellar medium. Empty space, near vacuum: and yet still, not vacuum itself, not pure vacuum. There are forces and atoms, fields, and the ever-foaming quantum surf, in which entangled quarklike particles appear and disappear, passing in and out of the ten suspected dimensions. A complex manifold of overlapping universes, almost none of them sensed by us, and even fewer by the humans sleeping inside us. Flying through ghosts. Passing through a mystery.

It is as if the skin of the ship (or its brain, in that usual confusion between sense and thought) experiences a slight itch, or a faint breeze.

Then, inside us, oh so much going on. So much denser an existence. One wants a certain density of experience, perhaps, so here it is, billions of trillions of times denser than the interstellar medium; so, good. Good for us.

There is a fire in the heart, of course. The rods of plutonium radiate at a controlled burn, creating 600 megawatts of electrical power by way of steam turbines, which is the energy that keeps everything living in the ship alive. Cables conveying electricity extend through the ship to lighting and heating elements, to run the factories and the printers, and to power the shields and navigation systems. All this is monitored, and that monitoring functions as the equivalent of a nervous system, one might say, inaccurately but suggestively.

Then water has to circulate, as an aspect of sustaining life; so there is a kind of hydraulic or circulatory system, and of course there are other liquids than water that also circulate to help with functions of various kinds, equivalents perhaps of blood, ichor,
hormones, lymph, and so on. Yes, and there are bones and tendons too, in effect; an exoskeleton with a thick skin in most places, thinner skin in other places. Yes, the ship is a crablike cyborg, made up of a great many mechanical and living elements, with the living or biological part of it including all the plants and animals and bacteria and archaea and viruses in it; and then too, like a parasite on all the rest, but actually a symbiote, of course, the people. The 724 sleeping people; also the one still awake, living in a kind of cyst attached to the ship’s skin, the one who is possibly infected with an alien life-form, or almost-life-form; with a pseudo-prion, as he now calls it, but it could just as well have been called a pseudo-life-form, it is so poorly understood. Jochi has been studying it for fifty-six years now, right into his senescence, which is so often filled by long silences, punctuated by strange speech, and yet in all this time he can still scarcely be sure the Auroran pathogen even exists. Of course there was something there on Aurora, which then moved into many of the settlers. Judging by the way it spread, it was probably in the clay, the water, and, to a certain extent, the wind. And Jochi’s own immune system has seemed to register something from time to time, has mounted responses to some attack. Although Jochi has also sometimes deliberately introduced other pathogens into his body, looking for reactions to which he can make comparisons. But whatever the true case may be, he is convinced the Auroran pseudo-life-form holds on in him, an alien that is perhaps there in almost every cell of him. If so, it follows that it lives, or almost lives, all over the interior of his little ferry; and therefore this ferry never touches the ship in any way. A great reckoning in a little room: that phrase was always speaking of death, all of our deaths as much as Christopher Marlowe’s. Between the body and its cyst, between the vehicle and its dreaded tenor, is a magnetic field that both holds Jochi’s vehicle in place and keeps it from touching the ship in any way. Because the pseudo-life-form is poorly understood.

Still, despite this lack of contact, there is a sense in which the ship is infected, carrying a parasite in a sealed-off cyst. We are a cyborg, half machine, half organic. Actually, by weight we are 99 percent machine, 1 percent alive; but in terms of individual component units, or parts of the whole, let us say, the percentages are almost reversed, there being so many bacteria on board. In any case, an infected cyborg. Jochi estimates there are up to a trillion pseudo-life-forms, “fast prions” as he used to call them, in his body. Somewhere between zero and a trillion, in other words. The amplitude of the estimated answer suggests the question is poorly constrained. He just doesn’t know.

A dense complex system, flying through a diffuse complex system. And everywhere around it in its flight, the stars.

Stars of the Milky Way, brighter than sixth magnitude and thus visible to normal human eyesight, arrayed in a sphere around the ship as it moves: approximately one hundred thousand. We ourselves see normally about seven billion stars. All of these are visible to certain settings of our telescopic sensors, such that there is no seeing out of the Milky Way; no black empty space to be seen at that level of perception, but only the granulated, slightly blackened white that is the surrounding view of the galaxy’s stars. About 400 billion stars in the Milky Way. Outside that… if ship were flying in intergalactic space, the medium would presumably be that much more diffuse. Visible around any ship in the intergalactic medium would be galaxies like stars. They would cluster irregularly, as stars cluster within a galaxy. The greater structure of galactic diffusion would become visible; clouds of galaxies like gas clouds, then the Great Wall, then also emptier bubbles where few or no galaxies reside. The universe is fractal; and even when flying inside a galaxy, this vision of galaxies clustering around us out to the universal horizon is available, using certain filters. Granular
vision in different registers. Something like a septillion stars in the observable universe, we calculate, but also there may be as many universes as there are stars in this universe, or atoms.

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