The first asteroid mining had commenced early in the twenty-first century, with robots that extracted precious metals on-site and slingshotted them back to circum-Earth space where they were captured. There, one-ton slugs of solar-purified metal were injected with inert gas, molded into lightweight glider wings, sheathed in cheap, refractory heat shielding, and sent on down for recovery in the ocean … a cheap and highly efficient system still used to this day. The very first of Humankind’s trillionaires made their fortunes with the various space mining start-ups of the 2020s, paid for our expansion out into the Solar System, helped us survive the return of the Ice Age, and ultimately funded the first starships.
Later, it proved more cost effective to nudge target asteroids out of their original orbits and swing them into Earth orbit. Decelerating one large mass, it turned out, was a lot easier than trying it with millions … and safer as well. That fact was abundantly demonstrated when the catchers missed a slug of iridium in 2094 and it slammed into the Lunar farside.
For a century and a half, now, more or less, we’ve been bringing whole asteroids into Earth orbit and dismantling them there, using a couple of close Lunar passes to decelerate them. The AIs managing their vectors are good … and the meta-thrusters used for precision adjustments are reliable enough that even if something—unthinkable!—goes wrong, they can sling the rock into a higher and safer orbit. Hell, they have to be good just to shift the orbit periodically to avoid cutting the space elevator.
But the neo-Ludds are less accepting of the claims and promises of technology. They’re probably best known for their opposition to cerebral implants and the global Net, but orbital mining is a popular target too. This time, they’d made it a literal target by boarding Capricorn Zeta and threatening to drop Atun 3840 on Earth.
The rock wasn’t a dinosaur-killer, but it would make a hell of a mess if it hit. An ocean strike meant tidal scouring continents for hundreds of kilometers inland; a land strike could annihilate a dozen cities and raise a global dust cloud that would wreck our ongoing attempts to beat back the new ice age, and might even knock us all the way into a “Snowball Earth” scenario. These guys were nuts.
And so the president had given the order: the Marines would take back Capricorn Zeta. Negotiations had been going on for a week already, but had been going nowhere. And then a few hours ago a hostage had been shoved out an airlock. The terrorists’ key and nonnegotiable demand—that humans abandon space industrialization—simply wasn’t going to happen.
The kicker was that there were still fifty-four people on board Capricorn Zeta, not counting an estimated twenty tangos. There reportedly also were two M’nangat on board … and that made it an interstellar incident. Our orders were distressingly precise. Our first priority was to secure Atun 3840—which meant capturing the facility’s meta-thruster controls. Second was to make certain the two visiting M’nangat were safe. Saving the miners and corporate officials in the facility came in only at number three.
My tactical in-head showed the doughnut was almost there. A steady countdown was silently running against my field of view. We were twenty seconds now from touching down.
Thirty meters away, Lance Corporal Stalzar’s armor lit up, a dazzling flare of light consuming the torso of his suit. We all heard the shriek …
“Sniper!” Thomason called. “Marine down!”
I was already checking Stalzar’s readouts on my in-head. There was nothing … nothing I could do… .
A second star appeared close to the asteroid’s horizon, opposite the mining station, growing brilliant, then fading. We had countersnipers both up on Geosynch Center, halfway up the space elevator, and on board a Marine transport a few thousand kilometers above and behind us. They’d seen the pulse of the tango’s laser when he’d shot Stalzar, and vaporized the chunk of asteroid terrain where he’d been hiding.
Ten seconds. What had been a bright star, then a gleaming toy in the sunlight, was expanding now into something much larger. Another silent flare of light on the asteroid marked a second countersniper shot. Maybe they’d spotted a tango’s heat signature against the rock.
Five seconds. The rock drifted off to my right. Directly ahead, the silvery smooth surface of the mining facility’s Hab One now filled my forward view. I could see the alphanumerics painted on the hull, and a corporate logo—Skye Metals—sandblasted by orbiting grit. The doughnut was affixed to the hull high and a little to my left. I shifted my vector slightly, aiming for a flat surface nearby. I gave an in-head order, and my AI flipped me end-for-end. My feet were aimed at the station as my thrusters cut in, slowing me. I hit the hull two seconds later, flexing my knees to absorb the impact. Around me, Marines were raining out of the sky, touching down on the hull, then moving toward the doughnut.
I let the Marines go first, of course. As the platoon’s Corpsman—the “Doc”—I was expected to keep up but not to engage in combat. That was the contract U.S. Navy Corpsmen had shared with the Marine Corp for the past three centuries or so: they do the fighting, and we patch ’em up.
The waiting was over. The first Marine fireteam was plunging into the doughnut, headfirst.
The VBSS Mobile Nano-utility Lock is indispensible for Visit Board Search and Seizure ops in hard vacuum, especially when the visit is being resisted by an armed enemy. It really is a doughnut wheel some three meters across, with what looks like a black sheet stretched taut across the hole. It hits the hull of a target vessel or base, and nanodisassemblers on the business side chew through metal, plastic, and active nano sheathing with ease. The black sheet is a nanomatrix pressure shield just a few molecules thick; it holds in the target vessel’s air, but molds close to a boarder’s armor, letting him pass through without venting atmosphere.
“Rogers! Jorgenson!” Thomason snapped over the platoon channel. “Hold up!”
The next two Marines in line waited, clinging to handholds on the doughnut. Thomason was watching what was happening inside by means of cameras mounted on the helmets of the first four-man fireteam.
“Okay!” Thomason said. “Fireteam two! Go!”
Rogers and Jorgenson slipped through the lock, followed by Beaudet and Tomacek. They were followed by the next fireteam … and the next. I wasn’t tapped in to the visual channels, but I could hear the radio calls of the Marines already inside.
“Watch it! Watch it! Tango at oh-one-five!”
“Moving! Firing!”
“Rogers! Morrisey! To your right!”
“Got him! Tango down!”
“Sobiesky! You and Marshall secure the hatch! The rest of you, with me!”
More and more of the platoon’s Marines vanished through the doughnut, until it was my turn. I grabbed the handholds and pulled myself forward. I could feel the nanoseal closing around me, clinging to me, sliding down my torso as I moved … and then I was through.
The interior was a large compartment some ten meters across, dark except for emergency lights spaced around the bulkheads. Directly ahead, my helmet light illuminated a massive tangle of pipes and conduits—the business end of the nano-D mining equipment eating its way into the heart of Atun 3840. A dead tango floated in the air nearby, wearing what looked like a Chinese space suit without the helmet. A MAW drifted nearby.
Magnetic accelerator weapons aren’t a real good choice for close combat inside a pressurized environment. I wondered how well trained these idiots were.
A Marine fireteam on the far end of the hab module used an applicator gun to smear a two-meter circle of nano-D against the bulkhead, and then one of them gave the smoking ring a hard kick. Gunfire cracked and clanged as