Authors: Peter F. Hamilton
Greg heard the compressors wind up. There was a tremble of motion, and the corner of the thermal generator building was dropping out of sight through the windscreen.
“You told Eleanor where we were going?” Suzi asked.
“Yeah. She’ll worry about it, but she’d worry more if she found out and I hadn’t told her. I said the crash team was providing hardline cover now. That ought to help.”
“Mean she’ll be happier that you’re not dependent on me no more.”
Anastasia shifted to horizontal flight mode, deck tilted at fifteen degrees as it climbed, pushing eastwards, aiming for the Bay of Biscay. Greg sniffed at the air; the pervasive sulphur smell of the thermal generator vent pipes was missing, filtered out by the life-support system. The spaceplane’s purified air was curiously empty, an absence of scent more than anything.
“Why do all the women in my life give me such a hard time?” he complained.
Suzi laughed. “Eleanor’s not a problem. You two, fucking lucky, you are.”
“I don’t know what you’re moaning about. Andria seemed like a nice girl.”
Suzi glanced over at Charlotte and Melvyn Ambler, her voice dropped. “The greatest, Greg. No shit. Me and her, it’s happening. Funny, I mean, what I am, who’d want me? But she does.”
He didn’t need his gland to see how earnest she was. Suzi taking life that seriously would take some getting used to. “You’ll have to bring her out to the farm some time.”
“She’s pregnant.”
“So’s Eleanor. They’ll get on all right.”
“Right.” She whistled through her teeth. “Greg? I’m gonna get out after this. For the kid, you know? So, like, if you hear of anything coming up on the market, pub or something, let me know.”
“Sure.” He ought to have a word with Julia, see if she could find a likely club, sell it to Suzi through a front. He settled back into the seat. Attention to detail, that’s what it was all about. He’d put a note in his cybofax, later, when Suzi couldn’t see.
Anastasia switched to her induction rams three hundred kilometres south-west of the Scully Isles. Greg heard a crackling roar build until it was loud enough to block ordinary talking. He was pressed down in the seat, estimating the Gforce at about one and three-quarters. There was a disorientating sensation as the deck began to level out once they reached thirty-five kilometres altitude, yet at the same time the growing acceleration effect made it seem like the angle was increasing. Perhaps he should have taken that infusion after all.
The pale azure sky began to darken beyond the windscreen.
It took seven minutes after the induction rams came on to reach their orbital transfer trajectory, slicing cleanly through the mesosphere and into the rarefied lower chemosphere where the power-to-thrust ratio decayed drastically. The induction rams cut off over Egypt. Anastasia was doing Mach twenty-nine, coasting gently upwards.
The stars had come out, burning steadily in the night sky. Earth was a fringe of blue-white light along the bottom of the windscreen.
Greg let out an alarmingly damp burp as the nearly forgotten sensation of freefall buoyed his stomach up towards his sternum.
“We’ll be performing our New London flight trajectory burn in eighty seconds—mark,” the pilot said.
The silence Greg had been expecting was punctuated by sharp snapping sounds of the induction rant linings contracting as they shed their thermal load. Electrohydrostatic actuators whined on the threshold of hearing.
Suzi pulled a sour face. “Bollocks, three more hours of this.”
“Isn’t the infusion working?” Greg asked.
“Yeah. But that only holds your gut together, it doesn’t stop this whole scene from being a major downer. Floating about like this ain’t right, Greg. I’m not a fucking fish.”
A small portion of his mind was secretly glad there was something he could handle better than her. Of course, he’d done a lot of flying in his Army days, burning the nausea out.
“It took me a day to get up to New London last time,” Charlotte said. “I went up on a transfer liner.”
“I was in one of the low Earth orbit stations for a week,” Rick said. “Checking out a radio telescope before it was boosted out to EU Two behind the moon. It beats the hell out of dieting, I must have lost a couple of kilos.”
“How about you, Melvyn?” Greg asked. “You ever been up here before?”
“Sure. Victor Tyo likes us to familiarize ourselves with every possible environment we’re likely to operate in. I get rotated up to New London for a month every two years.”
“That sounds like Victor,” Greg said.
Anastasia’s reaction-control thrusters fired suddenly, a rapid burst of pistol shots. Greg saw the Earth’s coronal haze slide off the bottom of the windscreen.
“Stand by,” the pilot called out.
Greg tried to make some sense out of the graphics scrawling across the windscreen, flexible holographic wormholes of blue and green, red cubes rotating, yellow lines in wavering grid patterns. Nothing was bloody labelled.
The auxiliary reaction drive came on. A pair of bell-shaped nozzles in Anastasia’s tail. Water was pumped into their vaporization chambers where it was energized directly from the giga-conductor cells. It emerged from the nozzles as a brilliant flame of ions.
Greg was pushed back into his seat again. Anastasia appeared to be standing vertically. The G-force was much lower this time, about a third.
New London followed a slightly elliptical orbit high above the Earth, with an apogee of forty-five thousand kilometres and a perigee of forty-two thousand kilometres. Anastasia rose out towards it in a long flat arc.
New London was visible from Earth even during the day, a fuzzy oval patch of light, far brighter than the Moon. During most of the approach it was a sharp-edged nebula, building in size and magnitude.
Greg spent the last hour in his seat, watching the rock and its attendant archipelago resolve. The angle of their approach, virtually straight up, meant that the archipelago grew longer the whole time, stretching out along the rock’s orbital track. At first it looked like the rock was the head of a strangely stable comet, one possessing a solid diamanté tail; then he began to make out the individual orbs.
The asteroid Julia had chosen to carry the torch of her new world industrial order was sixteen kilometres long, with an irregular width varying between five and eight kilometres, one end flared out into an asymmetrical bulge. One of her Merlin probes had surveyed it fourteen years ago; until then it had been a smear of light in a telescope, and a catalogue number: 2040BA. A fleet of the little robot prospecting craft had been amassing compositional data on the Apollo Amour asteroids for nearly a decade. It was a project Philip Evans had started even before the PSP fell; he had predicted the development of the space industry, and wanted to use the probes to give Event Horizon a data monopoly. Julia had carried on with the Merlin project after his death, launching up to fifteen a year. 2040BA was her reward for persistence; a nickel-iron asteroid orbiting two hundred million kilometres out from the Sun, no different to a hundred others the Merlns had examined. Except at some time in the distant past it had struck a carbonaceous chondritic asteroid. The collision had deposited a thick smear of shale, eight kilometres long, down the flank of 2040BA. It was a sticky tar, rich with nitrogen and carbon and hydrogen, millions of tonnes of them.
They were the chemicals which made New London possible. By itself a nickel-iron asteroid was worth trillions for the metal contained in its ores, but the cost of supporting the teams of miners and refinery operators would have been prohibitive. Every consumable would have to be lifted into orbit for them; even with giga-conductor spaceplanes it would be a marginal venture. To make the investment attractive, a mining team would have to be self-sustaining. At the lowest level that meant hydroponics and vat-grown-meat. At the other end of the scale, space activists dreamt of capturing both nickel-iron and carbonaceous chondritic asteroids and using them in combination to build cylindrical O’Neill colonies, twenty kilometres long, orbiting Gardens of Eden, revitalizing the Earth physically and spiritually.
2040BA allowed Julia to compromise between the two.
The relays of astronaut crews she sent out to 2040BA took two years to capture it. They detonated strategically-placed ten-megaton electron-compression devices at its bulbous end, altering its orbital track and increasing its long-axis rotation.
“I wanted to use nukes,” Julia had confided to Greg and Eleanor once the mission was underway. “Use up all the old superpower arsenals. That would have given people something they could understand and appreciate. The old age visibly going out in a blaze of glory to usher in the new. Now wouldn’t that be a sight?”
She needn’t have worried. People interpreted the asteroid’s arrival as the symbol of the new age. It brought hope to a psychologically leaden world. A technophilic coup d’etat, signalling the end of the worst aspects of the Warming. When you looked up you could see that there was somebody who had the guts and the drive to achieve something again, instead of just muddling through the way things had been going for nearly two decades. The somebody being Julia. It was the capture mission more than anything else—her inheritance, the giga-conductor monopoly, Peterborough’s incredible renewal—that catapulted her into the global public limelight.
The last three months of 2040BA’s journey became the greatest spectator event in human history. Greg had always wondered if it was coincidence that the final electron-compression device was detonated above night-time Europe. Julia working a subtle PR ploy, or Royan crowning their achievement with a typical brass neck gesture? Whichever, after that Julia’s kudos hit the stratosphere.
He could still remember the Last Blast party, it was country-wide. New Year’s Eve plonked down in the middle of a sultry cloudless August night. Hambleton had hosted a street barbecue, the whole village sitting round trestle tables in front of the church. Christine had been about five, but they’d let her stay up.
Eleven thirty-seven: the time was tattooed in his mind. 2040BA was a star brighter than Venus, then the last electron-compression device went off, stabilizing its orbit. A ten-megaton explosion, jetting out an incandescent plume of vaporized rock. The discharge had lasted for about a minute, growing as broad as a full moon before fading to violet and dispersing. They had all watched in silence, children, adults, pensioners, looking straight up; Greg inanely waiting to hear a distant rumble from the explosion.
The mining machines Julia sent up to Earth’s new moonlet cut out a cylindrical chamber five kilometres long and three in diameter, Hyde Cavern. Rotation gave it an Earth-standard gravity. Solar furnaces liberated oxygen from New London’s rock. Event Horizon crews collected the shale smear, shoving it through giant distillation modules, refining all the chemicals necessary for a working biosphere.
Hyde Cavern was given an atmosphere, water, light, warmth, gene-tailored food plants, insects, and soil bacteria. Engineering teams from Event Horizon and various kombinates’ space industry divisions moved in, and began refining the ore in earnest. Microgee-processing factories were boosted up from their low orbit to swarm in attendance; it was cheaper to use New London as a dormitory for the operating crews than costly habitation stations.
Greg could see New London itself through Anastasia’s windscreen, a dark head to the archipelago of high-albedo orbs. The rock’s long axis was orientated north/south, so that it rolled along its orbit. A counter-rotating docking spindle extended a kilometre and a half out of the southern hub, supporting a diamond-shaped solar cell array four kilometres square. The northern hub had a similar spindle, ending in a concave circular solar mirror five kilometres in diameter. It was built up from hexagonal sections a hundred metres across, with a speckle pattern of tiny black spots showing the holes that had been torn in them down the years. A focusing mirror hung two kilometres over the centre, sending the collected beam back down through an aperture in the middle. As he watched, one of the orbs peeped slowly over the mirror’s rim like a small sun rising above the horizon.
The orb was part of the excavation from the second chamber which was currently being hollowed out. A larger one than Hyde Cavern this time, eight kilometres long. The mining machines which cut through the ore crushed it into a residue of fine sand that was a mixture of metal powder and rock dust. It was impelled along the northern hub’s spindle into the foundry plant at its tip, where the mirror focus was aimed. The intense heat combined the rock and metal into a glutinous magma which the foundry crews called slowsilver. It was done for convenience, in freefall any liquid was easier to control and direct than a river of sand, and after mining came the problem of storage.
The slowsilver was pumped through one of a bagpipe array of extrusion pipes out into space in the shadow of the mirror, where it was allowed to accrete until it formed a globe fifty metres in diameter. Then after the outer shell had cooled and solidified the pipe disengaged, setting it loose. The foundry produced a hundred and forty orbs a day, a constant emission of metallic spawn.
Julia had no option but to store the second cavern detritus in this fashion, New London’s refineries and microgee materials-processing modules could only consume a fraction of the mining machines’ daily output. So the orbs accumulated in the archipelago, tens of thousands of them, like an elongated globular cluster staining space behind the asteroid. Some of them were nearly pure silver, others had abstract rainbow swirls frozen into their surface where exotic salts and minerals had curdled and reacted from the heat.
Refinery complexes floated round the fringes of the archipelago; big cylindrical modules, two hundred metres long, forty wide, hanging behind a kilometre-wide solar mirror. Perspective was difficult out here, part of his mind saw the refineries as chrome water lilies drifting on a velvet ocean. Almost an op art canvas. Space hardware had an inherent harshness, he thought, every square centimetre was functional, precise, there were no cool shades nor half colours, white and silver ruled supreme.