Russia is developing a space-based nuclear weapon to target satellites, U.S. Congress reveals

A Soyuz rocket launches the Kosmos 2575 military satellite from the Plesetsk Cosmodrome on Feb. 9, 2024.
A Soyuz rocket launches the Kosmos 2575 military satellite from the Plesetsk Cosmodrome on Feb. 9, 2024. (Image credit: Roscosmos)

Russia is reportedly developing a space-based nuclear weapon designed to disable or destroy satellites.

The United States Congress and America's European allies were informed of Russia's plans to develop the anti-satellite capability on Wednesday (Feb. 14). It's unclear what the exact nature of the planned weapon is — that is, whether it involves detonating a nuclear explosive in space or is another anti-satellite technology powered by a space-based nuclear reactor.

According to the intelligence presented to Congress, the U.S. military "does not have the ability to counter such a weapon and defend its satellites," according to a report in the New York Times. The report adds that U.S. government officials do not believe that such a weapon will be launched any time soon, but that there is "a limited window of time" to stop it from being launched and deployed.

Orbital nuclear weapons are currently banned due to the Outer Space Treaty of 1967, although there have been concerns of late that Russia might be backing out of the treaty in order to pursue further militarization of space.

Concerns over the development of such a weapon spread like wildfire on Wednesday (Feb. 14) after House Intelligence Committee chair Mike Turner (R-Ohio) issued a public statement asking President Biden to "declassify all information relating to this threat" so the U.S. government and its allies can "openly discuss the actions necessary to respond."

House Select Committee On Intelligence Chairman Mike Turner (R-OH) (left) walks through the U.S. Capitol on Feb. 14, 2024 in Washington, DC.

(Image credit: Chip Somodevilla via Getty Images)

Other members of Congress have responded to Turner's request, downplaying the severity of the reported Russian pursuit of a nuclear space weapon. "The classified intelligence product that the House Intelligence Committee called to the attention of Members last night is a significant one, but it is not a cause for panic," said Rep. Jim Himes (D-CT), Ranking Member of the House Permanent Select Committee on Intelligence, in a statement.

"As to whether more can be declassified about this issue, that is a worthwhile discussion but it is not a discussion to be had in public," Himes added.

House Speaker Mike Johnson (R-La.) issued a separate statement that downplays the threat posed by Turner's request. "I saw Chairman Turner's statement on the issue and I want to assure the American people there's no need for public alarm," Johnson said.

It's unclear why this particular intelligence was highlighted at this time, but there is some speculation that it could be related to Russia's Feb. 9 launch of a classified satellite known as Cosmos 2575.

A SpaceX Falcon 9 launches the USSF-124 mission for the U.S. Space Force on Feb. 14, 2024 at 5:30 p.m. EST (2230 GMT). (Image credit: SpaceX via X)

On the same day Turner's comments went viral, the U.S. Space Force launched six satellites designed to detect and track missile launches.

A nuclear detonation in space could have both immediate and long-lasting effects in Earth's orbit. In the immediate aftermath, nuclear explosions could cause a multitude of damaging effects; pulses of high-energy radiation such as heat, x-rays and other radiation can "can damage nearby satellites and blind their sensors," according to a 2023 study by the Center for Strategic & International Studies (CSIS).

Two figures from the 2008 "Report of the Commission to Assess the Threat to the United States from Electromagnetic Pulse (EMP) Attack" illustrating the effects of a high-altitude nuclear explosion in Earth's atmosphere and how Earth's natural radiation belts can trap radiation released by nuclear detonations in or near space. (Image credit: U.S. Dept. of Defense)

In terms of longer-lasting effects, the naturally occurring belts of radiation that surround our planet could trap radiation released by a nuclear explosion, producing "longer lasting radiation belts that caused deleterious effects to satellites then in orbit or launched soon thereafter," according to a report published in 2008 by the Commission to Assess the Threat to the United States from Electromagnetic Pulse (EMP) Attack.

The same phenomenon was observed after the United States detonated a nuclear warhead at high altitude in 1962 during the "Starfish Prime" nuclear test conducted by the Atomic Energy Commission, a precursor to the Department of Energy.

Photograph of an aurora caused by the Starfish Prime high-altitude nuclear test explosion on July 9, 1962. (Image credit: Public Domain)

The test saw a 1.4-Megaton device detonated 250 miles (400 km) above the Pacific Ocean near Hawaii. The Soviet Union also detonated three nuclear devices at high-altitude that same year.

Nuclear weapons aren't the only anti-satellite capabilities Russia — and other nations — are pursuing. Russia has been fielding ground-based lasers that can blind satellites, and has tested anti-satellite missiles widely condemned by the international community due to the amount of dangerous debris it produced in Earth's orbit.

The U.S military has signaled in recent months that both Russia and the People's Republic of China (PRC) are seeking to turn space into a "warfighting domain" and are "deploying capabilities that can target GPS and other vital space-based systems," according to U.S. Deputy Secretary of Defense Kathleen Hicks.

Originally published on Space.com.

Editor, Space.com

Brett is a science and technology journalist who is curious about emerging concepts in spaceflight and aerospace, alternative launch concepts, anti-satellite technologies, and uncrewed systems. Brett's work has appeared on The War Zone at TheDrive.com, Popular Science, the History Channel, Science Discovery, and more. Brett has English degrees from Clemson University and the University of North Carolina at Charlotte. In his free time, Brett is a working musician, a hobbyist electronics engineer and cosplayer, an avid LEGO fan, and enjoys hiking and camping throughout the Appalachian Mountains with his wife and two children.