The Daily - The Sunday Read: ‘What Does the U.S. Space Force Actually Do?’
Episode Date: November 19, 2023The Space Force, the sixth and newest branch of the U.S. military, was authorized by Congress and signed into law by President Donald Trump in December 2019. The initiative had been shaped within the ...armed forces and Congress over the previous 25 years, based on the premise that as satellite and space technologies evolved, America’s military organizations had to change as well.From the start, the Space Force had detractors. Air Force officials wondered if it was necessary, while some political observers believed that it signified the start of a dangerous (and expensive) militarization of another realm. What seemed harder to argue against was how nearly every aspect of modern warfare and defense — intelligence, surveillance, communications, operations, missile detection — has come to rely on links to orbiting satellites.The recent battles in Eastern Europe, in which Russia has tried to disrupt Ukraine’s space-borne communication systems, are a case in point. And yet the strategic exploitation of space now extends well beyond military concerns. Satellite phone systems have become widespread. Positioning and timing satellites, such as GPS (now overseen by the Space Force), allow for digital mapping, navigation, banking and agricultural management. A world without orbital weather surveys seems unthinkable. Modern life is reliant on space technologies to an extent that an interruption would create profound economic and social distress.For the moment, the force has taken up a problem not often contemplated outside science fiction: How do you fight a war in space, or a war on Earth that expands into space? And even if you’re ready to fight, how do you make sure you don’t have a space war in the first place?This story was recorded by Audm. To hear more audio stories from publications like The New York Times, download Audm for iPhone or Android.
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Hi, my name's John Gertner.
I'm a contributor to the New York Times Magazine,
and I write about science and technology.
This week's Sunday Read is a story I wrote for the magazine Space Issue
about the Space Force.
It's the newest, smallest, and most secretive branch of the U.S. military.
It was established just four years ago, and its members, they're called guardians, are in charge
of observing and protecting everything that belongs to America that's orbiting above the Earth.
That includes defending military satellites and all the satellites we sometimes take for granted that are vital to our day-to-day lives.
Unlike, say, the Air Force or even the Coast Guard, you won't see photos of its planes and ships in service.
And because so much of its work is out of sight, the Space Force has almost become this caricature.
There's even a Netflix comedy series about it,
starring Steve Carell. The operating costs for the Space Force amount to about $26 billion a year.
And I don't think it's uncommon to hear questions like, well, why do we need to spend so much to protect our satellites? Or, are these threats to our satellites real or imagined?
But picture life without GPS, without mapping and directions,
or without weather satellites, which our entire agricultural systems depend on.
Our lives are tied very intimately to what's happening in space.
Our lives are tied very intimately to what's happening in space.
And so I wanted to find out, what does this new branch of the military actually do?
And how do they do it?
So, after approaching the Space Force and explaining the premise of my story,
they agreed to give me some access that I think they don't ordinarily offer.
In Colorado, I visited the Peterson and Schriever bases,
which were formerly used by the Air Force.
I also went to a place called Space Systems Command in Los Angeles,
not far from LAX.
Most of the time, there was a great veil of secrecy over what the Guardians were doing.
At Peterson, I couldn't bring any electronic devices
into the buildings. I could only go old school and use a notebook. There were some people I
couldn't quote by name. And sometimes I'd enter a room and it would need to be vacated before I
could walk through it. And I'd have to pass through quickly. But I did uncover a lot in my reporting about how and why the Space Force
operates, which you'll hear about in my story. One of the most striking things to me was this.
I've always thought of space as a place of wonder and delight and endless curiosity.
But the Space Force guardians, in their own words, consider space to be a contested, congested, war-fighting domain.
This military branch of about 15,000 people has to prepare for a war in space, even as they do everything they can to prevent a war in space.
a war in space.
It's this delicate balancing act between security
and the kind of arms race
we've entered into
with Russia and China.
And they have to make sure
they don't overstep it.
So, here's my article.
What does the U.S. Space Force
actually do?
Read by Eric Jason Martin.
Chief Master Sergeant Ron Lurch of the U.S. Space Force sat down in his office in Los Angeles one morning in September to deliver a briefing known as a threat assessment. The current threats in space are less sci-fi than you might expect,
but there are a surprising number of them.
At least 44,500 space objects now circle Earth,
including 9,000 active satellites and 19,000 significant pieces of debris.
What's most concerning isn't the swarm of satellites, but the types.
We know that there are kinetic kill vehicles, Lurch said.
For example, a Russian nesting doll satellite,
in which a big satellite releases a tiny one,
and the tiny one releases a mechanism that can strike and damage another satellite.
There are machines with the ability to cast nets and extend grappling hooks, too.
China, whose presence in space now far outpaces Russia's, is launching unmanned space planes
into orbit, testing potentially unbreakable quantum communication links and adding AI
capabilities to satellites. An intelligence report, Lurch said, predicted the advent,
within the next decade, of satellites with radio frequency jammers, chemical sprayers,
and lasers that blind and disable the competition. All this would be in addition to the cyber warfare tools,
electromagnetic instruments,
and ASAT, anti-satellite missiles,
that already exist on the ground.
In Lurch's assessment,
space looked less like a grand new ocean for exploration,
phrasing meant to induce wonder
that is lingered from the Kennedy
administration, and more like a robotic battlefield where the conflicts raging on Earth would soon
extend ever upward. The Space Force, the sixth and newest branch of the U.S. military,
was authorized by Congress and signed into law by
President Donald Trump in December 2019. Its creation was not a partisan endeavor,
though Trump has boasted that the idea for the organization was his alone. The initiative had
in fact been shaped within the armed forces and congress over the previous 25 years based on
the premise that as satellite and space technologies evolved america's military organizations had to
change as well at its incarnation the space force was an assemblage of programs and teams that
already existed mainly as entities within the air Force. It's one of the common
misperceptions that it cost money to create the Space Force, and it really didn't, because we
already had Space Forces, Todd Harrison of the Center for Strategic and International Studies
told me. These were just spread throughout the military, the people, the bases, the platforms,
the satellites, the ground stations. What the new directive did accomplish, however,
was to group space endeavors under a central chain of command and authorize its leaders to
chart a unified future. One of the things that we were lacking without a Space Force was an organization that would argue for its own destiny, Douglas Levero, a former Pentagon official involved in helping start the branch, told me.
The concern was that without a dedicated team within the military's bureaucracy that could push for the specific tools they needed, the United States would be at a disadvantage.
Some strategists worried that the nation already was. Levero pointed out that two decades ago, a Chinese
military analyst named Wang Hucheng wrote a paper that presaged an aspect of China's aerospace
strategy. For countries that can never win a war with the United States by using the method of
tanks and planes, attacking the U.S. space system may be an irresistible and most tempting choice.
The argument identified space as the U.S. military's soft ribs and strategic weakness.
From the start, the Space Force had detractors. Air Force officials wondered if it
was necessary, while some political observers believed that it signified the start of a
dangerous and expensive militarization of another realm. What seemed harder to argue against was how
nearly every aspect of modern warfare and defense, intelligence,
surveillance, communications, operations, missile detection, has come to rely on links to orbiting
satellites. The recent battles in Eastern Europe, in which Russia has tried to disrupt Ukraine's
space-borne communication systems, are a case in point. And yet, the strategic exploitation of
space now extends well beyond military concerns. Satellite phone systems have become widespread.
Positioning and timing satellites, such as GPS, now overseen by the Space Force,
allow for digital mapping, navigation, banking, and agricultural management.
A world without orbital weather surveys seems unthinkable. Modern life is reliant on space
technologies to an extent that an interruption would create profound economic and social distress.
The work of the Space Force is by its, highly sensitive, often classified, and mostly out of sight.
This leaves the organization in a battle for visibility, and at times, viability.
Some members of the Force, Guardians, as they're called, told me that even now they find themselves bumping into members of other branches of the military who see their arm patches and ask in earnest, Space Force,
is that a real thing? The Steve Carell Netflix comedy series, which members of the actual Space
Force sometimes argue is neither good nor funny, doesn't help their cause. It likewise doesn't capture their seriousness of purpose.
For the moment, the Force has taken up a problem
not often contemplated outside science fiction.
How do you fight a war in space,
or a war on Earth that expands into space?
And even if you're ready to fight,
how do you make sure you don't have a space war in the first place?
The Space Force's Operations Division is headquartered on the southeastern side of Colorado Springs,
in a massive three-story building within the guarded perimeter of Peterson Space Force Base.
Until recently, it was Peterson Air Force Base.
The office's inner workings are highly secure and secretive. The force, as one security analyst
told me, has a larger proportion of its budget, around $26 billion this year, dedicated to
classified spending than any other branch of the military.
Visitors to headquarters are not allowed to bring electronic devices or walk unescorted inside.
The building nevertheless hums with activity, with personnel hustling about under a canopy
of scale-model satellites, large replicas of machines that now orbit Earth, hanging in a bright, airy atrium.
When I visited in late September, several military and civilian personnel took me through their
day-to-day work. Right away, they noted that the Space Force is often mistaken for United States
Space Command, also headquartered in Colorado, that reports to the
U.S. Secretary of Defense. Space Command is a decision-making entity that coordinates space-related
operations for all branches of the armed forces. The Space Force, by contrast, outfits and trains
troops for potential space conflicts, scrutinizes space for dangers,
and launches satellites for the Department of Defense.
The Space Force regularly consults with Space Command
to ask how, or whether, the potential threats it discovers should be addressed.
As large as the Space Force's remit seems to be,
to monitor, protect, and ensure access to a territory far larger than Earth's oceans, technology now enables economies of scale.
It's a big domain with the smallest force, smaller than the Coast Guard, Christopher Ayers, the technical director to the Deputy Commanding General for Operations, explained.
All told, the Space Force has about 8,600 military guardians and about 5,000 civilian guardians.
But you don't need hundreds of people to operate a satellite after launch.
You may need only one.
Space Force personnel often do their work in air-conditioned, windowless buildings
outfitted with computer servers and robust intelligence links.
During critical situations, they deploy in place,
that is, they report to the same offices, but at a heightened state of readiness.
but at a heightened state of readiness.
Guardians tend to think of the realm they patrol as a kind of structured, multi-level terrain,
Earth as being surrounded by three highways or three rings.
The nearest level, low Earth orbit, LEO,
is host to constellations like SpaceX's Starlink network
and the International Space Station, which moves about
250 miles above us at 17,500 miles per hour. A medium Earth orbit, NEO, between 1,200 and 22,000
miles above is where GPS satellites circle. At the highest ring, at least for now, is a track known as Geosynchronous Orbit,
GEO, because an object in such an orbit keeps pace with Earth's rotation. This band is home
to DirecTV satellites, weather tracking instruments from the National Oceanic and
Atmospheric Administration, and crucial Defense Department communication links.
It's a technological zoo up there. The satellite mix is foreign and domestic, young and old,
sinister and peaceful. The technologies are all different sizes, flying at different speeds and
altitudes. The challenge for the force is to monitor all movement,
but also to track the threatening presence of debris, some of which is naturally occurring
— tiny rocks, for instance — and some of which has human origins, like shards of old rockets.
Because space junk can move at extraordinary velocities,
a floating screw might pack a destructive
punch equivalent to a small bomb.
The main focus within the Space Force is on observation and deterrence.
Nobody wants a space war, I was reminded frequently.
But the Force has a capacity to mobilize when necessary.
At Peterson, I visited an electromagnetic warfare center,
a building not far from headquarters, but ringed with surveillance cameras and an additional perimeter of high fencing, where men and women train to unjam
signals that may be intentionally interfering with American planes, ships, and ground troops.
It would be like watching TV and you can't get the signal, Lieutenant Colonel D.J. Thomas,
TV and you can't get the signal, Lieutenant Colonel D.J. Thomas, who leads the team, told me.
In emergencies, Thomas said, his guardians would pack up a pair of portable dish antennas and a customized computer console at a moment's notice, a combined unit that struck me as fitting
easily into a minivan, and ship out to remote locations all over the world.
into a minivan and ship out to remote locations all over the world. The rooms I visited at the Electromagnetic Warfare Center were for defensive training. A part of the building was given over
to offensive tactics. Clearly, the force sees both as necessary. And if a requirement to blind
and deafen an enemy's satellites were to arise from U.S. Space Command,
the Space Force could help fulfill the order. The means would most likely not be kinetic,
some form of physical or explosive contact, but electronic, a weapon of code-related stealth,
or perhaps a kind of debilitating high-energy burst. Colonel Chandler Atwood of
Space Force Operations Command told me that what concerns him most is his belief that Americans are
unaware of how rapidly orbital dangers have evolved. He acknowledged that the force observes
multiple events daily in space that require its attention.
It's not the kinetic threat that keeps me up at night, he added.
It's the cyber defense aspect.
We have significant vulnerabilities we have to harden up.
From Peterson, I took a 30-minute ride to a smaller Space Force base in Colorado
known as Shriever, which sits on a grassy plain with a
distant view of Pike's Peak. To reach the Space Force's orbital warfare unit meant passing through
a gated station at the base's perimeter and barriers of high protective fencing, monitored
by guards with body armor and weapons. Lieutenant Colonel Galen Thorpe escorted me inside the complex. The most crucial
part of his work occurs inside a building where about 120 guardians, working in teams of five at
a time, push buttons, as Thorpe put it, to drive five maneuverable observation satellites known as GSAPs, for the Geosynchronous Space Situational Awareness Program, at a distance
of 22,300 miles above Earth. Unlike many satellites, which cannot be significantly
steered once they're put into orbit, these have tanks of propellant and are akin to enormous
remote-controlled drones. The program was originally created inside the Air Force.
I asked Thorpe how things had evolved
since his unit was reconfigured within the Space Force three years ago.
He pointed to a shift in posture,
from merely cataloging all the satellites in orbit
to scrutinizing their behavior,
using tools like
GSAPs in terms of threat awareness. Or, as he put it, we have to know where these objects are
in a protect and defend sense. Thorpe's colleague, Captain Raymond Pereira, drawing on a whiteboard,
pointed me to another concern, the crowd of satellites in low-Earth orbit.
I would say we're probably already entering into an area where congestion is a problem,
he said, and anything that would generate debris would be catastrophic for the domain.
One plausible theory is known as the Kessler syndrome, named after the former NASA scientist Donald Kessler, which posits that a release of
wreckage and fragments in this orbit could eventually lead to a domino effect of unstoppable
destruction. Pereira pointed out that if someone, or something, were to touch off such an event,
they would not only be harming their adversary, they would be harming themselves.
they would not only be harming their adversary,
they would be harming themselves.
But even short of that,
a single collision or attack might hamstring science missions to the moon,
or to Mars,
or lead to failures for GPS and communications systems,
a problem that could have huge consequences for life on Earth.
Keeping track of 44,500 items moving around the planet,
along with new arrivals that slip into orbit nearly every week,
poses a multidimensional task.
Who launched these machines?
Why?
What could they do?
We need to know what's up there,
where is it going, and why we should be concerned,
Colonel Brian McLean of the Space Force told me.
This goal, known as space domain awareness, has become one of the force's overarching priorities.
There are enormous challenges in creating a system of constant observation and making sense of so much data.
What constitutes threatening activities in orbit, moreover, and what might necessitate a strategic response is not always clear.
In truth, space has few unquestioned laws apart from those relating to gravity. A treaty from the late 1960s,
signed by most of the major nations on Earth, prohibits the use of nuclear weapons in space
and designates the moon for peaceful purposes. But recently, I was told, satellites from foreign
adversaries have been coming close to machines from the United States and its allies.
The treaty says nothing about such provocations,
or about grappling hooks, nesting dolls, and cyber warfare.
Space Force leaders readily describe their guardians as working toward a state of combat
readiness, even as they hope an era of actual conflict never arrives.
In October, I went to the Pentagon to meet with General Chance Saltzman,
the chief of space operations and the Space Force's highest-ranking officer.
Saltzman remarked that several decades back,
when he began working with satellites in the Air Force,
the notion that there could be combat losses in space was not part of the conversation.
But those are discussions now, he told me, because both the Chinese and the Russians
have demonstrated operational capabilities that truly placed those assets at risk.
In 2007, China's decision to test an ASAT weapon
to destroy one of its own satellites
sent shockwaves through the U.S. military
and created a vast field of debris.
A similar Russian tactic in 2021
generated more than 1,500 fragments
and led Secretary of State Antony Blinken to describe
the act as recklessly conducted. The Space Force's own squadrons, Saltzman told me,
were still tracking pieces of junk that date to the 2007 explosion.
You know, the other domains kind of clean themselves up after war, Saltzman said. You shoot an airplane down, it falls out
of the sky. Ships sink out of the sea lanes. Even on land, you bring the bulldozers in and
you move things around. But space doesn't heal itself. Debris has led military strategists to
ponder a related issue. In space, it's difficult to get out of the way of conflict.
Right now, Saltzman noted, if you pull up real-time data to see where flights are around the world,
the airspace over Ukraine is empty. You will see a void, he said. Commercial air traffic
does not want to fly over Ukraine. The same thing happens in shipping lanes,
like the Strait of Hormuz, when the Middle East is in turmoil, as it is now. So in other domains,
refugees, displaced persons, people get out of the way of conflict. Commercial entities
move out of the way and avoid conflict. In space, orbital mechanics take over. Machines keep going around and around,
following the laws of gravity. NASA's satellites may not be able to steer away from a potential
combat zone, and commercial entities can't move or won't know where or when to move.
And then potentially every satellite becomes more debris, Saltzman remarked.
Every peaceful satellite could become a weapon accidentally. I asked Saltzman what he and his
colleagues had learned from observing the war in Ukraine. With a caveat that the fighting is
hardly over, it could still be a catastrophe on a grand scale, he said, he pointed to several
crucial events. The first was how one of Russia's earliest endeavors was to deny Ukrainian troops
access to a satellite communications system they relied upon, known as Viasat, which is stationed
in the distant geosynchronous orbital belt.
And they did it with a cyber attack against the ground infrastructure, he said, so you attack the ground network to achieve the space effect you want. This wasn't a surprise to him, he said,
yet it was a reminder of the potential power of cyber warfare and how battles to dominate space could still be terrestrial.
Another crucial point came after that attack,
Ukraine's decision to go to a commercial vendor, SpaceX,
and use its Starlink system for combat communications.
Here, the lesson was twofold.
First, that what Saltzman called commercial augmentation
could prove vital in a crisis.
As important, he added,
Starlink, a configuration of hundreds of proliferated small satellites
flying in low Earth orbit, has proved hard to bring down.
The Russians are trying to interrupt it, he said,
and they're not having very good success.
And the takeaway is that proliferated systems of many small machines in low orbit can be more
technologically resilient to hacking and disruption than a few big machines in higher orbits.
This seems to fit into Saltzman's goal of maintaining strength during combat
while achieving a larger objective
of avoiding conflict altogether. If I have two or three satellite communications doing nuclear
command and control, maybe those are targets, he explained. But if I take nuclear command and
control and spread it across 400 satellites that are zipping over the horizon every 15 minutes,
there's a targeting problem.
How many satellites do I have to shoot down now to take out the U.S. nuclear command and control?
If the answer was 400, it would make things difficult for the enemy.
And while small satellites in a large configuration
could potentially be a more expensive
investment than two or three
mega-satellites, the shift
could be worthwhile.
If an adversary believes that it cannot
achieve a military objective,
Saltzman remarked,
it will hesitate to cross a threshold
of violence.
No conflicts. No debris. No crisis.
Over the course of several days in Los Angeles at Space Systems Command,
a Space Force division that plans and acquires technology,
I met with about a dozen colonels who detailed their ideas
for the next decade. Some discussions addressed the Space Force's goal of being able to launch
satellites within, say, 24 hours in urgent situations. I learned the Force is working
on developing machines that can be refueled in orbit, as well as satellites that can repair other satellites.
Because rockets and orbital objects travel so fast, the International Space Station circles
Earth every 90 minutes, some tacticians are pondering being able to deliver, via launches
into space, a high-value package, such as a rare medication or a vital part for an F-35 fighter jet,
halfway across the world in as little as 30 minutes. Other projects are less speculative.
There are deep concerns within the military about China and Russia's hypersonic glide weapons,
which may be able to avoid defense systems through bursts of speed and pretzeled
flight paths. In response, the force is trying to implement a new system of detection in the
next several years at low and middle Earth orbits. It took ample funds to build and launch the old
systems, Colonel Heather Bogsdy, who helps oversee the program, told me, but with
the speed our adversaries are fielding these hypersonic glide vehicles, we don't have the
luxury of time anymore. Brian Wheaton of the Secure World Foundation, a non-profit that focuses on
keeping the orbital realm peaceful and sustainable, told me that the U.S. military has faced perennial
challenges in reducing costs and delivery times for new space-based projects, and that the Space
Force has yet to prove it can buck that trend. Still, the force is trying to nurture America's
domestic rocket industry, acting as a facilitator for national security launches,
while stoking the growth and bringing down the expense of fledgling commercial enterprises.
The Department of Defense sometimes requires big rockets to take heavy satellites farther into
space, that is, into the MEO or GEO layers, making for significant technical challenges for new companies.
Colonel Douglas Pentecost, the Deputy Director of Launch Enterprise at Space Systems Command,
also told me that because some launches carry very precious, super-secret instruments,
they cannot fail under any circumstances. For now, SpaceX has demonstrated
the capabilities and safety record to carry these payloads. But, Pentecost told me, we can't rely on
one company to always be there for us. That's basically taking us back to the 1980s, when we
were relying on the space shuttle, and then when the space shuttle
had its unfortunate accident, we had no way into space for several years. In an effort to diversify
risks, Pentecost's team is working with the United Launch Alliance, a partnership of Lockheed Martin
and Boeing. Commercial companies, Firefly, Rocket Lab, and Jeff Bezos' Blue Origin, for instance,
are in the mix too. The goal would be a range of reliable and cheaper launch companies to choose
from by the late 2020s. Pentecost said he would soon like to be able to get any payload into orbit
at any time. There is a darker side that accompanies
a future of rampant growth. As space becomes commercialized, it increasingly becomes a
geopolitical arena for competition too. Just as China launched a space plane that stayed aloft
for months, so has the U.S. Space Force. Just as competitors develop
satellites that make close and unnerving approaches to our satellites, so does the U.S. Space Force.
With so many launches now planned, and so many designs for enigmatic satellites in the works,
it becomes hard not to wonder if the United States will become engaged in a new arms
race, or to ask if it already has. In 1950, a political scientist named John Hertz introduced
the term security dilemma, noting that in international affairs, a state concerned with
being attacked, subjected, dominated, or annihilated by others
can be drawn into a vicious circle of building up its defenses. One implication of this,
a political scientist named Robert Jervis later posited, is that one state's gain in security
inadvertently threatens others. When I asked Saltzman if this was a concern,
he acknowledged that it was, but he also said that the security dilemma was a phenomenon that
probably dated back thousands of years. Weapons are not inherently offensive or defensive,
Saltzman maintained. Weapons are just weapons, and the operations that you choose to undertake with those weapons
makes them more offensive or defensive.
The important question, as he saw it, was this.
At what point does a buildup of defensive weapons in space
constitute an ability to conduct offensive operations
so that someone else feels
threatened. There is a balance here, he said, and this is about stability management. What actions
can we take to protect ourselves before we start to cross the line and maybe create a security
dilemma? The line, he suggested,
harder to find in space,
no doubt,
and at this point not clearly defined,
had not yet been crossed.