They said the the Chinese laser was grown from a fragment of crystal made here — which poses the question, how did it get out of this box and onto the Chinese satellite?

Ling is so earnest, it’s hard to believe he’d knowingly do something like that. Meanwhile, I can sense Attwell hovering behind me, watching this exchange, waiting to see if I reveal myself.

“Pretty cool,” I say in that way when someone is starting to get bored. “We’ll have to get one of these for my lab.”

“It’s a hundred-million-dollar machine,” replies Attwell, a little smugly. “It’s the only one in existence.”

I already know this, and how the machine works — well, roughly. My clueless comment was intended to throw him off my scent.

I think it worked. Or he’s still working me.

I want to get more details out of Ling, but I need to do it when Attwell isn’t hovering over his shoulder.

Back on Earth they told me how materials make it from here to the transport ship. The question is if this is how things are actually done here, or do they take shortcuts that could be compromised.

Someone once told me about a breach in a nuclear enrichment facility where one pound of plutonium went missing. Inspectors were shocked to find that in a facility patrolled by armed guards and more tightly locked down than the Pentagon, workers had deactivated an alarm on a door they kept propped open so they didn’t have to walk back through all that security for their smoke breaks.

The kicker was the doorstop turned out to be the missing plutonium. While only mildly radioactive, and nowhere near the health threat of their cigarettes, it was a prime example of security being so tight that it negates itself.

I’ve already seen the faulty fingerprint locks. I can only wonder what other safeguards have been ignored for practicality’s sake. If Attwell has his way, I’ll never know.

“Let me show you my lab,” says Attwell.

“Thank you for showing me this, Dr. Ling.”

“My pleasure. It’s nice to have another person here I’m officially allowed to show this to.”

Were I some Gestapo inspector subtly grilling the man, I’d ask him what he means by “officially allowed.” That sounds a lot like there might be unofficial tours conducted for people without clearance.

Again, sensing Attwell’s watching eye, I say nothing. I just make a mental note to find out when Ling goes to the Tiki bar and test his tolerance for space cocktails.

Attwell follows me into his lab then shuts the door. There are two separate sections divided by a hatch in the middle. Inside the other chamber there’s a meter-wide glass porthole at the end of a long tube that’s connected to the hull.

“You ready for the real show?” asks Attwell as he turns down the lights. “Stay right here.”

He steps into the other airlock and seals the door. His voice is amplified by a speaker on the wall. “This is just a precaution.”

Attwell takes the arm from a spacesuit and slips it on. He then flicks several switches and a blue glow appears behind the glass of the porthole.

“Now comes the cool part.” Attwell opens up the door.

I float down so I can see through the other end. The edge of the Earth is visible just beyond.

“Wait? Is that open to vacuum?” I ask.

“Yes, sir. A plasma force field, for lack of a better term, is holding the atmosphere inside this section. Right now there’s nothing between space and me, except a bunch of very excited ions trapped in a magnetic field.”

I’d heard of this kind of thing being tested in Earth laboratories. I didn’t know we’d already had prototypes we could test in space.

This is real science fiction stuff. It’s why the Millennium Falcon could land in the Death Star docking bay without an airlock door. And now I’m looking at a real one…

“Ready to have your mind blown?” Attwell’s enthusiasm overtakes his skepticism of me.

“I think that already happened.”

“Watch this…” Attwell shoves his sleeved arm through the blue glow and into the vacuum of space.

“Holy cow! That’s a force field!”

He retracts his arm, shuts the door and shuts the machine off. “Also a very energy hungry force field. We’re working on how to more precisely tune it to increase the efficiency.”

“How do you not get electrocuted?”

“Trade secret. What I can tell you is that shield can also be used to block out cosmic rays.”

“That would be great for manned travel.”

“Dixon, if we figure this out, you could float in space without a suit or use bubbles of plasma on Earth to make things levitate.”

“Hoverboards.”

“Isn’t that what this is all about?”

“Where do I sign up?”

“Just don’t get in our way,” he says with a forced smile.

I spend the rest of the day working in my lab doing my best to assemble the parts the 3D printer produced. Although there’s a robotic assembler with three arms on my bench, I want to give it a go myself, so I can sound reasonably informed if anyone asks.

The boot is designed to fit at the end of a standard iCosmos coupling. Much smaller than the ski boot things we wear on space walks, it’s got a flexible sole and grip on the bottom that can vacuum-grasp the outside of a space station and let you walk on carpet in gravity without feeling like you’re stomping through a ski lodge.

Once I get the parts in place, I decide to give the shoe a test — inside the space station. At some point I’ll have to live up to my role as human guinea pig and try it outside the station, but I want to do the easy part first in case the thing just falls to pieces.

We might be able to regrow toes after space frostbite, but there’s no need to push that boundary just yet.

I slide them over my feet and flex. They’re surprisingly more comfortable than hiking boots. Maybe there’s something to them after all.

As I leave my lab, Yancey is floating down the module towards the door. She opens it, letting me pass.

“Nice shoes,” she says.

“These old things?” I reply, rotating in mid-air to face her.

“You make those?”

“I just printed them out. The folks below are the ones that designed them.”

She reaches out and touches the sole. “Cool. Gripping fibers. I like the honeycomb reinforcement. You going to test them in the hotel?”

It took her all of three seconds to figure out exactly what the shoes did. She’s real smart. Hell, everyone here is probably a genius — well, except this guy. I have to keep that in mind.

“Yeah, I want to make sure if they’re going to fall apart it’ll happen in here.”

“Good call. You don’t want what happened to the last AstroFirma tester happening to you.”

“Right,” I nod, trying to hide how damn curious I am to know.

“At least they can grow toes back,” she adds.

Jesus Christ.

I reach the ladder to the hotel, grab the handrail and do my first test with the shoes carrying my weight as I descend.

They grip the rungs just right, using some kind of intelligent software that can tell what my feet are trying to do.

I reach the bottom and take my first few steps using the shoes in Earth gravity.

They’re more boot-like than thin athletic shoe or space slipper, but after a few strides I forget they’re even there.

When I stroll into the lounge, Schroeder, my pilot to the station, is eating a salad.

“Nice shoes.”

“Thanks.” I drop down into the seat across from her. “Nice to eat a meal that doesn’t come out of a bag.”

“I’ll say. How’s your lab?”

I point to the shoes. “I’m waiting to find out if my toes fall off. When you headed back?”