Short Wave - What Happens Inside A Top-Secret U.S. Nuclear Facility?
Episode Date: February 11, 2025The U.S. tested nuclear weapons until the early 1990s. Since then, scientists have been using supercomputers and experiments to simulate nuclear test detonations, without detonating any nukes. But the...re are signs the world's nuclear powers may be readying to test again: Russia, China and the U.S. are all upgrading their nuclear test sites.NPR science correspondent Geoff Brumfiel was among a small group of journalists allowed to tour an underground laboratory where this research happens. Read more of science correspondent Geoff Brumfiel's reporting here. Help shape the future of Short Wave by taking our survey: npr.org/shortwavesurveyListen to every episode of Short Wave sponsor-free and support our work at NPR by signing up for Short Wave+ at plus.npr.org/shortwave.See pcm.adswizz.com for information about our collection and use of personal data for sponsorship and to manage your podcast sponsorship preferences.NPR Privacy Policy
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You're listening to Shortwave from NPR.
Hey, Gina.
Hey, NPR science correspondent, Jeff Brumfield.
Why are you darkening my doorstep?
To talk about one of my all-time favorite topics, nuclear weapons testing.
And I got a question for you.
Okay.
When do you think is the last time the U.S. tested a nuclear weapon?
I'm going to say possibly in the late 70s.
They actually stopped a lot later than that.
They stopped in 1992.
Wow.
And they've been pursuing a very different program based on science.
Okay.
And recently I got a very, very unusual look at that program and all its facets and sort of how the U.S. continues to verify its nuclear weapons work without having to set any of them off.
Are they thinking about testing again?
I would say the official answer is no, but there is more concern that the U.S. or a U.S. or a testine again.
There is more concern that the U.S. or another country might soon test another nuclear weapon.
So today on the show, Jeff takes us on a rare trip to tunnels deep under the Nevada desert, where America does science instead of nuclear testing.
I'm Regina Barber, and you're listening to Shortwave, the science podcast from NPR.
Okay, so let's start with like a little history on nuclear testing.
Like, how did we get to where we are today where we're not doing it anymore?
You know, you think a nuclear test, and it's like a mushroom cloud over the desert, but that was actually just a very brief period that those above-ground tests were happening.
It was mostly in the 1950s, and it stopped because of radioactive fallout.
The wind was carrying radioactive material much further than expected, and it started showing up on fishing boats, in milk and baby teeth, places nobody wanted it.
So in 1963, the world's nuclear power signed a treaty to move testing deep underground.
And it kept going that way all the way until the end of the Cold War.
Which was what, like the late 1980s, early 1990s?
That's when the Soviet Union collapse.
Right, right.
So why did nuclear testing stop then?
I spoke to Hans Christensen with the Federation of American Scientists.
He tracks nuclear weapons all over the world.
And he says there were two big reasons.
The first was political.
It was very much an attempt to look around and see what can we do that makes it clear that we're not just talking about the end of the Cold War.
We're serious about it.
We're willing to do some things.
But the second reason they could stop testing was actually technical.
It was this growing power of supercomputers.
They could now take these supercomputers and simulate nuclear testing in silicon.
You didn't need to do nuclear test to do what you needed to do for the foreseeable future,
which is to make sure that the nuclear weapons you have, work,
and if there's a problem, a glitch, you can fix it.
So you could still run tests.
They were just on computers, not like an actual detonation of a nuke.
Yeah, and that actually takes us to the first stop on this whole nuclear testing road trip.
Okay.
I traveled out to Lawrence Livermore National Laboratory in California,
and I got to see their newest computer where they do what they call the button to boom calculations.
The button to boom.
inside a secure vault.
The computer is called El Capitown.
You named it after Yosemite.
There's a very prominent granite there,
and it's in California.
Terry Quinn oversees
high-performance computing in Livermore,
and she showed us around.
Now, this machine uses advanced processors,
similar to those used for generative AI,
actually. El Cap can do
more than two quintillion calculations per second.
Wow.
That's two exaflop.
for those in the supercomputing game.
And its only job is to calculate, you know, a nuclear weapons detonation.
It used to be it might take them a week to do a calculation on how a weapon would detonate.
Now they can get it back by the end of the day or within hours.
I mean, that is game-changing, especially in this world where we have to move faster.
And this is what nuclear testing looks like today.
Making sure the weapons we do have work, but using supercomputers, right?
Like problem-solve, like no more real-world tests.
Not quite.
Okay.
As you know, Gina, any good computer model still needs some real-world data to make sure it's grounded in reality.
Okay.
And so, you know, nuclear weapons scientists have continued to collect data.
They're doing experiments in the same tunnels underground where they used to set up their nuclear weapons tests.
Okay.
Now, this is not a place many journalists get to go.
But I asked and asked and asked very nicely.
And eventually, I and a few other journalists, made it to Nevada where they do this testing.
We stepped onto an old mining elevator.
And the elevator just drops into pitch blackness, nearly a thousand feet underground.
Here's what it was like at the bottom.
Already it sounds scary.
There's a long corridor that's been carved out of an ancient lakebed, pipes along the wall.
carry air, water, and power.
Workers and hard hats are everywhere.
David Funk, who oversees work underground, leads us in.
How long have we had tunnels then?
Oh, so the tunnels first, very well, but these were dug in the 80s.
So this would have been a test shaft potentially?
Yeah, this was a design to be nuclear test location originally,
and now we do only subcritical experiments in this location.
Subcritical experiments.
That means experiments that simulate conditions inside a nuclear weapon without triggering a nuclear chain reaction.
That runaway chain reaction is what gives a nuke its incredible power.
These tunnels were originally built to contain nuclear explosions.
Then, in 1992, the U.S. officially stopped all testing.
The Cold War had ended in thinking was nuclear testing could end too.
It would make the world safer.
But fast forward to today and nuclear weapons are back on the front page.
Same goes for nuclear testing.
China, Russia, and America are all upgrading their test sites.
And that's why we're here to see what U.S. scientists are up to underground.
Speaking of which, why do they still work down here?
We do this because it is secure, right, so we can control the environment.
And we also are concerned about a potential breach of the vessel.
And so we want to do it in an environment that's controlled,
and we don't lose any of the plutonium into the environment.
If something goes wrong.
If something goes wrong.
Yeah.
We arrive at our first stop, a long, empty corridor that's just been dug out for a new experiment.
So this is where the Scorpius machine is going to reside.
The Scorpius machine.
It kind of feels like you're in a James Bomb movie.
Funk explains it's actually a giant X-ray machine.
You guys are familiar with chest X-rays, right?
Scorpius is going to work in the same way.
It'll create extremely high-powered X-rays.
And the reason is we need higher energy X-rays to be able to look through plutonium.
Plutonium from America's nuclear weapons.
Much of it was made decades ago, and it's getting old.
The X-rays are used to take a look inside
to see how well the plutonium would work if detonated.
Scorpius will cost $2 billion to build down here.
We walk deeper into the tunnel network.
Some of the floors are still rocky.
They've just been dug.
Next stop, an experiment that simulates a nuclear weapon.
It's called Cygnus,
and it's arguably the most secretive scientific project in the U.S. government.
As a reminder, the air is going into no cell phones.
Any Bluetooth devices, smart watches, smart rings.
If you have them, they need to go in the locker over here.
Cygnus is a smaller version of Scorpius.
It fires x-rays at plutonium that's inside a spherical steel container
about the size of a mini-fridge.
Watch your step entering.
Tim Beller is directing the next test,
code named Nob Hill.
So that is the knob hill vessel.
That's the actual vessel that we will use.
That's a three-footer.
In a few months inside this vessel,
scientists will blow up a tiny quantity of plutonium
using chemical explosives.
It's designed to simulate a nuclear detonation.
But again, this test will be subcritical.
The U.S. government says there will not be
a runaway nuclear chain reaction.
Whatever rules they set, I ensure they happen here in Nevada.
Okay, so Jeff, this.
gives like a real sense of what it was like to visit those tunnels.
And like Tim Beller said, is that the U.S. is following these rules, right?
But you mentioned there might be like a return to testing.
Is that because scientists need to do like another test they couldn't do with these supercomputers?
No, actually it isn't.
In fact, you know, I heard again and again from nuclear weapons scientists on this trip.
There is no technical need to test right now.
Okay.
So if it's not scientific, it's not technical, why would America test again?
We'd start testing again for exactly the same reason we stopped testing, and that's politics.
Nuclear weapons have a new role in the world. You know, Russia is developing some wild new nuclear
weapons designs. China is expanding its nuclear arsenal. And into all of this comes the Trump
administration. Now, Project 2025, which is sort of a conservative blueprint for the government,
it says the U.S. should be ready to test another nuclear weapon if it needs to.
Trump's former national security advisor has gone further.
He's written that the U.S. should test another nuclear weapon.
Okay.
So if the U.S. did resume underground testing, what would be the consequences of that?
First things first, we should say underground testing is safer than atmospheric testing,
but that doesn't mean it's totally safe.
Here's Jamie Kwong with the Carnegie Endowment for International Peace.
Underground tests can also have environmental and humanitarian impacts.
You know, they're obviously not as severe as the atmospheric impacts, but they're still possible.
And historically, at least, testing's been done in some pretty marginalized communities, places in rural Nevada, rural Mississippi, the Aleutian Islands.
These are communities where the population just doesn't have that much political power.
But there's also another way in which the resumption of nuclear testing could hurt the U.S.
The U.S. has a technical advantage locked in by this moratorium on nuclear testing.
Because it undertook so many more tests during this Cold War period, it has loads of historical legacy data.
The U.S. has more than a thousand nuclear tests under its belt.
Now, China only has 45.
Oh, wow.
So if global testing resumes, China's going to learn a lot more from test 46 than the U.S. will have
from its next test. But I should say, like, you know, this isn't all up to Trump and the Trump
administration in America. China or Russia could decide it was time to do an underground test. And if they
did, the U.S. would be under a lot of pressure to test as well. Okay. So, Jeff, I can see now that we
could be at this precipice of a return to nuclear testing because we're at this, like, very unstable
moment right now in the world. Nobody, like, no country wants to go.
first, but if one country tests, the other countries are likely to follow, right?
That's exactly it. And, you know, if testing happens, arms control experts worry, it's going
to spark new kinds of research into other nuclear weapons, and those weapons will get billed
and we'll be right back in the middle of a nuclear arms race.
Jeff Brumfield, thank you so much for bringing us the story.
You're welcome, Gina. Pleasure to be here.
This episode was produced by Rachel Carlson and edited by Burley McCoy.
Jeff Brumfield and Tyler Jones
checked the facts.
Jimmy Keely was the audio engineer.
Bet Donovan is our senior director
and Colin Campbell is our senior vice president
of podcasting strategy.
I'm Regina Barber.
Thank you for listening to Shortwave.
The Science Podcast from NPR.
