nasa budget

During a town hall Wednesday, NASA officials on stage looked like hostages

Donald Trump, janet petro, NASA, nasa budget, Science, Space, space policy, space science / Shannon Garcia / June 26, 2025

A Trump appointee suggests NASA may not have a new administrator until next year.

NASA press secretary Bethany Stevens, acting administrator Janet Petro, chief of staff Brian Hughes, associate administrator Vanessa Wyche, and deputy associate administrator Casey Swails held a town hall with NASA employees Wednesday. Credit: NASA

The four people at the helm of America’s space agency held a town hall meeting with employees Wednesday, fielding questions about downsizing, layoffs, and proposed budget cuts that threaten to undermine NASA’s mission and prestige.

Janet Petro, NASA’s acting administrator, addressed questions from an auditorium at NASA Headquarters in Washington, DC. She was joined by Brian Hughes, the agency’s chief of staff, a political appointee who was formerly a Florida-based consultant active in city politics and in Donald Trump’s 2024 presidential campaign. Two other senior career managers, Vanessa Wyche and Casey Swails, were also on the stage.

They tried to put a positive spin on the situation at NASA. Petro, Wyche, and Swails are civil servants, not Trump loyalists. None of them looked like they wanted to be there. The town hall was not publicized outside of NASA ahead of time, but live video of the event was available—unadvertised—on an obscure NASA streaming website. The video has since been removed.

8 percent down

NASA’s employees are feeling the pain after the White House proposed a budget cut of nearly 25 percent in fiscal year 2026, which begins October 1. The budget request would slash NASA’s topline budget by nearly 25 percent, from $24.8 billion to $18.8 billion. Adjusted for inflation, this would be the smallest NASA budget since 1961, when the first American launched into space.

“The NASA brand is really strong still, and we have a lot of exciting missions ahead of us,” Petro said. “So, I know it’s a hard time that we’re going to be navigating, but again, you have my commitment that I’m here and I will share all of the information that I have when I get it.”

It’s true that NASA employees, along with industry officials and scientists who regularly work with the agency, are navigating through what would most generously be described as a period of great uncertainty. The perception among NASA’s workforce is far darker. “NASA is f—ed,” one current leader in the agency told Ars a few weeks ago, soon after President Trump rescinded his nomination of billionaire businessman and commercial astronaut Jared Isaacman to be the agency’s next administrator.

Janet Petro, NASA’s acting administrator, is seen in 2020 at Kennedy Space Center in Florida. Credit: NASA/Kim Shiflett

Before the White House released its detailed budget proposal in May, NASA and other federal agencies were already scrambling to respond to the Trump administration’s directives to shrink the size of the government. While NASA escaped the mass layoffs of probationary employees that affected other departments, the space agency offered buyouts and incentives for civil servants to retire early or voluntarily leave their posts.

About 900 NASA employees signed up for the first round of the government’s “deferred resignation” program. Casey Swails, NASA’s deputy associate administrator, said Wednesday that number is now up to 1,500 after NASA announced another chance for employees to take the government’s deferred resignation offer. This represents about 8 percent of NASA’s workforce, and the window for employees to apply runs until July 25.

One takeaway from Wednesday’s town hall is that at least some NASA leaders want to motivate more employees to resign voluntarily. Hughes said a “major reason” for luring workers to leave the agency is to avoid “being in a spot where we have to do the involuntary options.”

Rumors of these more significant layoffs, or reductions in force, have hung over NASA for several months. If that happens, workers may not get the incentives the government is offering today to those who leave the agency on their own. Swails said NASA isn’t currently planning any such layoff, although she left the door open for the situation to change: “We’re doing everything we can to avoid going down that path.”

Ultimately, it will depend on how many employees NASA can get to resign on their own. If it’s not enough, layoffs may still be an option.

Many questions, few answers

Nearly all of the questions employees addressed to NASA leadership Wednesday were submitted anonymously, and in writing: When might Trump nominate someone for NASA administrator to take Isaacman’s place? Will any of NASA’s 10 field centers be closed? What is NASA going to do about Trump’s budget proposal, particularly its impact on science missions?

Their responses to these questions, in order: Probably not any time soon, maybe, and nothing.

The Trump administration selected Petro, an engineer and former Army helicopter pilot, to become acting head of NASA on Inauguration Day in January. Bill Nelson, who served as a Florida senator until 2019, resigned the NASA administrator job when former President Biden left the White House.

Petro was previously director of NASA’s Kennedy Space Center since 2021, and before that, she was deputy director of the Florida spaceport for 14 years. She leapfrogged NASA’s top civil servant, associate administrator Jim Free, to become acting administrator in January. Free retired from the agency in February. Before the presidential election last year, Free advocated for the next administration to stay the course with NASA’s Artemis program.

But that’s not what the Trump administration wants to do. The White House seeks to cancel the Space Launch System rocket and Orion spacecraft, both core elements of the Artemis program to return astronauts to the Moon after two more flights. Under the new plan, NASA would procure commercial transportation to ferry crews to the Moon and Mars in a similar way to how the agency buys rides for its astronauts to the International Space Station in low-Earth orbit.

NASA’s Curiosity rover captured images to create this selfie mosaic on the surface of Mars in 2015. If implemented as written, the Trump budget proposal would mark the first time in 30 years that NASA does not have a Mars lander in development. The agency would instead turn to commercial companies to demonstrate they can deliver payloads, and eventually humans, to the red planet.

The Trump administration’s statements on space policy have emphasized the longer-term goal of human missions to Mars. The White House’s plans for what NASA will do at the Moon after the Artemis program’s first landing are still undefined.

Petro has kept a low profile since becoming NASA’s temporary chief executive five months ago. If Trump moved forward with Isaacman’s nomination, he would likely be NASA administrator today. The Senate was a few days away from confirming Isaacman when Trump pulled his nomination, apparently for political reasons. The White House withdrew the nomination the day after Elon Musk, who backed Isaacman to take the top job at NASA, left the Trump administration.

Who’s running NASA?

Now, Petro could serve out the year as NASA’s acting administrator. Petro is well-regarded at Kennedy Space Center, where she was a fixture in the center’s headquarters building for nearly 20 years. But she lacks a political constituency in the Trump administration and isn’t empowered to make major policy decisions. The budget cuts proposed for NASA came from the White House’s Office of Management and Budget, not from within the agency itself.

President Trump has the reins on the process to select the next NASA administrator. Trump named Isaacman for the office in December, more than a month before his inauguration, and the earliest any incoming president has nominated a NASA administrator. Musk had close ties to Trump then, and a human mission to Mars got a mention in Trump’s inauguration speech.

But space issues seem to have fallen far down Trump’s list of priorities. Hughes, who got his job at NASA in part due to his political connections, suggested it might be a while before Trump gets around to selecting another NASA administrator nominee.

“I think the best guess would tell you that it’s hard to imagine it happening before the next six months, and could perhaps go longer than that into the eight- or nine-month range, but that’s purely speculation,” Hughes said, foreseeing impediments such as the large number of other pending nominations for posts across the federal government and high-priority negotiations with Congress over the federal budget.

Congress is also expected to go on recess in August, so the earliest a NASA nominee might get a confirmation hearing is this fall. Then, the Senate must vote to confirm the nominee before they can take office.

The timeline of Isaacman’s nomination for NASA administrator is instructive. Trump nominated Isaacman in December, and his confirmation hearing was in April. He was on the cusp of a confirmation vote in early June when Trump withdrew his nomination on May 31.

As NASA awaits a leader with political backing, Petro said the agency is undergoing an overhaul to make it “leaner and more agile.” This is likely to result in office closures, and Hughes indicated NASA might end up shuttering entire field centers.

“To the specific question, will they be closed or consolidated? I don’t think we’re there yet to answer that question, but it is actively a part of the conversation we’re having as we go step-by-step through this,” Hughes said.

What can $4 billion buy you?

While Trump’s budget proposal includes robust funding for human space exploration, it’s a different story for most of the rest of NASA. The agency’s science budget would be cut in half to approximately $3.9 billion. NASA’s technology development division would also be reduced by 50 percent.

If the White House gets its way, NASA would scale back research on the International Space Station and cancel numerous robotic missions in development or already in space. The agency would terminate missions currently exploring Jupiter, on the way to study an asteroid, and approaching interstellar space. It would shut down the largest X-ray space telescope ever built and the only one in its class likely to be operating for the next 10 years.

“There’s a lot of science that can still be done with $4 billion,” Petro said. “How we do science, and how we do partnerships, may change in the future to sort of multiply what we’re doing.”

These partnerships might include asking academic institutions or wealthy benefactors to pitch in money to fund science projects at NASA. The agency might also invite commercial companies to play bigger roles in NASA robotic missions, which are typically owned by the government.

This view of Jupiter’s turbulent atmosphere from NASA’s Juno spacecraft includes several of the planet’s southern jet streams. Juno is one of the missions currently in space that NASA would shut down under Trump’s budget request. Credit: NASA

One employee asked what NASA could do to secure more funding in the president’s budget request. But that ship has sailed. The options now available to NASA’s leadership are to support the budget proposal, stay silent, or leave. NASA is an executive agency and part of the Trump administration, and the White House’s budget request is NASA’s, too.

“It’s not our job to advocate, but let’s try to look at this in a positive way,” Petro said. “We’ve still got a lot of money. Let’s see how much mission we can do.”

Ultimately, it’s up to Congress to appropriate funding for NASA and other parts of the government. Lawmakers haven’t signaled where they might land on NASA’s budget, but Sen. Ted Cruz (R-Texas), who is influential on space-related matters, released the text of a proposed bill a few weeks ago that would restore funding for the International Space Station and forego cancellation of the Space Launch System rocket, among other things. But Cruz did not have much to say about adding more money for NASA’s science programs.

NASA’s senior leaders acknowledged on Wednesday that the pain of the agency’s downsizing will extend far beyond its walls.

“Eighty-five percent of our budget goes out the door to contractors,” Petro said. “So, with a reduced budget, absolutely, our contractors will also be impacted. In fact, they’re probably the bigger driver that will be impacted.”

It’s clearly a turbulent time for America’s space agency, and NASA employees have another month to decide if they want to be part of it.

“I know there’s a lot to consider,” Swails said. “There’s a lot that people are thinking about. I would encourage you to talk it out. Tap into your support systems. Talk to your spouse, your partner, your friend, your financial advisor, whomever you consider those trusted advisors for you.”

This sounds like hollow advice, but it seems like it’s all NASA’s workers can do. The Trump administration isn’t waiting for Congress to finalize the budget for 2026. The downsizing is here.

Stephen Clark is a space reporter at Ars Technica, covering private space companies and the world’s space agencies. Stephen writes about the nexus of technology, science, policy, and business on and off the planet.

During a town hall Wednesday, NASA officials on stage looked like hostages Read More »

Some parts of Trump’s proposed budget for NASA are literally draconian

darpa, DRACO, NASA, nasa budget, nuclear thermal propulsion, Science, Space, White House / Kelly Newman / June 3, 2025

“That’s exactly the kind of thing that NASA should be concentrating its resources on.”

Artist’s illustration of the DRACO nuclear rocket engine in space. Credit: Lockheed Martin

New details of the Trump administration’s plans for NASA, released Friday, revealed the White House’s desire to end the development of an experimental nuclear thermal rocket engine that could have shown a new way of exploring the Solar System.

Trump’s NASA budget request is rife with spending cuts. Overall, the White House proposes reducing NASA’s budget by about 24 percent, from $24.8 billion this year to $18.8 billion in fiscal year 2026. In previous stories, Ars has covered many of the programs impacted by the proposed cuts, which would cancel the Space Launch System rocket and Orion spacecraft and terminate numerous robotic science missions, including the Mars Sample Return, probes to Venus, and future space telescopes.

Instead, the leftover funding for NASA’s human exploration program would go toward supporting commercial projects to land on the Moon and Mars.

NASA’s initiatives to pioneer next-generation space technologies are also hit hard in the White House’s budget proposal. If the Trump administration gets its way, NASA’s Space Technology Mission Directorate, or STMD, will see its budget cut nearly in half, from $1.1 billion to $568 million.

Trump’s budget request isn’t final. Both Republican-controlled houses of Congress will write their own versions of the NASA budget, which must be reconciled before going to the White House for President Trump’s signature.

“The budget reduces Space Technology by approximately half, including eliminating failing space propulsion projects,” the White House wrote in an initial overview of the NASA budget request released May 2. “The reductions also scale back or eliminate technology projects that are not needed by NASA or are better suited to private sector research and development.”

Breathing fire

Last week, the White House and NASA put a finer point on these “failing space propulsion projects.”

“This budget provides no funding for Nuclear Thermal Propulsion and Nuclear Electric Propulsion projects,” officials wrote in a technical supplement released Friday detailing Trump’s NASA budget proposal. “These efforts are costly investments, would take many years to develop, and have not been identified as the propulsion mode for deep space missions. The nuclear propulsion projects are terminated to achieve cost savings and because there are other nearer-term propulsion alternatives for Mars transit.”

Foremost among these cuts, the White House proposes to end NASA’s participation in the Demonstration Rocket for Agile Cislunar Operations (DRACO) project. NASA said this proposal “reflects the decision by our partner to cancel” the DRACO mission, which would have demonstrated a nuclear thermal rocket engine in space for the first time.

NASA’s partner on the DRACO mission was the Defense Advanced Research Projects Agency, or DARPA, the Pentagon’s research and development arm. A DARPA spokesperson confirmed the agency was closing out the project.

“DARPA has completed the agency’s involvement in the Demonstration Rocket for Agile Cislunar Orbit (DRACO) program and is transitioning its knowledge to our DRACO mission partner, the National Aeronautics and Space Administration (NASA), and to other potential DOD programs,” the spokesperson said in a response to written questions.

A nuclear rocket engine, which was to be part of NASA’s aborted NERVA program, is tested at Jackass Flats, Nevada, in 1967. Credit: Corbis via Getty Images)

Less than two years ago, NASA and DARPA announced plans to move forward with the roughly $500 million DRACO project, targeting a launch into Earth orbit aboard a traditional chemical rocket in 2027. “With the help of this new technology, astronauts could journey to and from deep space faster than ever, a major capability to prepare for crewed missions to Mars,” former NASA administrator Bill Nelson said at the time.

The DRACO mission would have consisted of several elements, including a nuclear reactor to rapidly heat up super-cold liquid hydrogen fuel stored in an insulated tank onboard the spacecraft. Temperatures inside the engine would reach nearly 5,000° Fahrenheit, boiling the hydrogen and driving the resulting gas through a nozzle, generating thrust. From the outside, the spacecraft’s design looks a lot like the upper stage of a traditional rocket. However, theoretically, a nuclear thermal rocket engine like DRACO’s would offer twice the efficiency of the highest-performing conventional rocket engines. That translates to significantly less fuel that a mission to Mars would have to carry across the Solar System.

Essentially, a nuclear thermal rocket engine combines the high-thrust capability of a chemical engine with some of the fuel efficiency benefits of low-thrust solar-electric engines. With DRACO, engineers sought hard data to verify their understanding of nuclear propulsion and wanted to make sure the nuclear engine’s challenging design actually worked. DRACO would have used high-assay low-enriched uranium to power its nuclear reactor.

Nuclear electric propulsion uses an onboard nuclear reactor to power plasma thrusters that create thrust by accelerating an ionized gas, like xenon, through a magnetic field. Nuclear electric propulsion would provide another leap in engine efficiency beyond the capabilities of a system like DRACO and may ultimately offer the most attractive option for enduring deep space transportation.

NASA led the development of DRACO’s nuclear rocket engine, while DARPA was responsible for the overall spacecraft design, operations, and the thorny problem of securing regulatory approval to launch a nuclear reactor into orbit. The reactor on DRACO would have launched in “cold” mode before activating in space, reducing the risk to people on the ground in the event of a launch accident. The Space Force agreed to pay for DRACO’s launch on a United Launch Alliance Vulcan rocket.

DARPA and NASA selected Lockheed Martin as the lead contractor for the DRACO spacecraft in 2023. BWX Technologies, a leader in the US nuclear industry, won the contract to develop the mission’s reactor.

“We received the notice from DARPA that it ended the DRACO program,” a Lockheed Martin spokesperson said. “While we’re disappointed with the decision, it doesn’t change our vision of how nuclear power influences how we will explore and operate in the vastness of space.”

Mired in the lab

More than 60 years have passed since a US-built nuclear reactor launched into orbit. Aviation Week reported in January that one problem facing DRACO engineers involved questions about how to safely test the nuclear thermal engine on the ground while adhering to nuclear safety protocols.

“We’re bringing two things together—space mission assurance and nuclear safety—and there’s a fair amount of complexity,” said Matthew Sambora, a DRACO program manager at DARPA, in an interview with Aviation Week. At the time, DARPA and NASA had already given up on a 2027 launch to concentrate on developing a prototype engine using helium as a propellant before moving on to an operational engine with more energetic liquid hydrogen fuel, Aviation Week reported.

Greg Meholic, an engineer at the Aerospace Corporation, highlighted the shortfall in ground testing capability in a presentation last year. Nuclear thermal propulsion testing “requires that engine exhaust be scrubbed of radiologics before being released,” he wrote. This requirement “could result in substantially large, prohibitively expensive facilities that take years to build and qualify.”

These safety protocols weren’t as stringent when NASA and the Air Force first pursued nuclear propulsion in the 1960s. Now, the first serious 21st-century effort to fly a nuclear rocket engine in space is grinding to a halt.

“Given that our near-term human exploration and science needs do not require nuclear propulsion, current demonstration projects will end,” wrote Janet Petro, NASA’s acting administrator, in a letter accompanying the Trump administration’s budget release last week.

This figure illustrates the major elements of a typical nuclear thermal rocket engine. Credit: NASA/Glenn Research Center

NASA’s 2024 budget allocated $117 million for nuclear propulsion work, an increase from $91 million the previous year. Congress added more funding for NASA’s nuclear propulsion programs over the Biden administration’s proposed budget in recent years, signaling support on Capitol Hill that may save at least some nuclear propulsion initiatives next year.

It’s true that nuclear propulsion isn’t required for any NASA missions currently on the books. Today’s rockets are good at hurling cargo and people off planet Earth, but once a spacecraft arrives in orbit, there are several ways to propel it toward more distant destinations.

NASA’s existing architecture for sending astronauts to the Moon uses the SLS rocket and Orion spacecraft, both of which are proposed for cancellation and look a lot like the vehicles NASA used to fly astronauts to the Moon more than 50 years ago. SpaceX’s reusable Starship, designed with an eye toward settling Mars, uses conventional chemical propulsion, with methane and liquid oxygen propellants that SpaceX one day hopes to generate on the surface of the Red Planet.

So NASA, SpaceX, and other companies don’t need nuclear propulsion to beat China back to the Moon or put the first human footprints on Mars. But there’s a broad consensus that in the long run, nuclear rockets offer a better way of moving around the Solar System.

The military’s motive for funding nuclear thermal propulsion was its potential for becoming a more efficient means of maneuvering around the Earth. Many of the military’s most important spacecraft are limited by fuel, and the Space Force is investigating orbital refueling and novel propulsion methods to extend the lifespan of satellites.

NASA’s nuclear power program is not finished. The Trump administration’s budget proposal calls for continued funding for the agency’s fission surface power program, with the goal of fielding a nuclear reactor that could power a base on the surface of the Moon or Mars. Lockheed and BWXT, the contractors involved in the DRACO mission, are part of the fission surface power program.

There is some funding in the White House’s budget request for tech demos using other methods of in-space propulsion. NASA would continue funding experiments in long-term storage and transfer of cryogenic propellants like liquid methane, liquid hydrogen, and liquid oxygen. These joint projects between NASA and industry could pave the way for orbital refueling and orbiting propellant depots, aligning with the direction of companies like SpaceX, Blue Origin, and United Launch Alliance.

But many scientists and engineers believe nuclear propulsion offers the only realistic path for a sustainable campaign ferrying people between the Earth and Mars. A report commissioned by NASA and the National Academies concluded in 2021 that an aggressive tech-development program could advance nuclear thermal propulsion enough for a human expedition to Mars in 2039. The prospects for nuclear electric propulsion were murkier.

This would have required NASA to substantially increase its budget for nuclear propulsion immediately, likely by an order of magnitude beyond the agency’s baseline funding level, or to an amount exceeding $1 billion per year, said Bobby Braun, co-chair of the National Academies report, in a 2021 interview with Ars. That didn’t happen.

Going nuclear

The interplanetary transportation architectures envisioned by NASA and SpaceX will, at least initially, primarily use chemical propulsion for the cruise between Earth and Mars.

Kurt Polzin, chief engineer of NASA’s space nuclear propulsion projects, said significant technical hurdles stand in the way of any propulsion system selected to power heavy cargo and humans to Mars.

“Anybody who says that they’ve solved the problem, you don’t know that because you don’t have enough data,” Polzin said last week at the Humans to the Moon and Mars Summit in Washington.

“We know that to do a Mars mission with a Starship, you need lots of refuelings at Earth, you need lots of refuelings at Mars, which you have to send in advance,” Polzin said. “You either need to send that propellant in advance or send a bunch of material and hardware to the surface to be set up and robotically make your propellant in situ while you’re there.”

Elon Musk’s SpaceX is betting on chemical propulsion for round-trip flights to Mars with its Starship rocket. This will require assembly of propellant-generation plants on the Martian surface. Credit: SpaceX

Last week, SpaceX founder Elon Musk outlined how the company plans to land its first Starships on Mars. His roadmap includes more than 100 cargo flights to deliver equipment to produce methane and liquid oxygen propellants on the surface of Mars. This is necessary for any Starship to launch off the Red Planet and return to Earth.

“You can start to see that this starts to become a Rube Goldberg way to do Mars,” Polzin said. “Will I say it can’t work? No, but will I say that it’s really, really difficult and challenging. Are there a lot of miracles to make it work? Absolutely. So the notion that SpaceX has solved Mars or is going to do Mars with Starship, I would challenge that on its face. I don’t think the analysis and the data bear that out.”

Engineers know how methane-fueled rocket engines perform in space. Scientists have created liquid oxygen and liquid methane since the late 1800s. Scaling up a propellant plant on Mars to produce thousands of tons of cryogenic liquids is another matter. In the long run, this might be a suitable solution for Musk’s vision of creating a city on Mars, but it comes with immense startup costs and risks. Still, nuclear propulsion is an entirely untested technology as well.

“The thing with nuclear is there are challenges to making it work, too,” Polzin said. “However, all of my challenges get solved here at Earth and in low-Earth orbit before I leave. Nuclear is nice. It has a higher specific impulse, especially when we’re talking about nuclear thermal propulsion. It has high thrust, which means it will get our astronauts there and back quickly, but I can carry all the fuel I need to get back with me, so I don’t need to do any complicated refueling at Mars. I can return without having to make propellant or send any pre-positioned propellant to get back.”

The tug of war over nuclear propulsion is nothing new. The Air Force started a program to develop reactors for nuclear thermal rockets at the height of the Cold War. NASA took over the Air Force’s role a few years later, and the project proceeded into the next phase, called the Nuclear Engine for Rocket Vehicle Application (NERVA). President Richard Nixon ultimately canceled the NERVA project in 1973 after the government had spent $1.4 billion on it, equivalent to about $10 billion in today’s dollars. Despite nearly two decades of work, NERVA never flew in space.

Doing the hard things

The Pentagon and NASA studied several more nuclear thermal and nuclear electric propulsion initiatives before DRACO. Today, there’s a nascent commercial business case for compact nuclear reactors beyond just the government. But there’s scant commercial interest in mounting a full-scale nuclear propulsion demonstration solely with private funding.

Fred Kennedy, co-founder and CEO of a space nuclear power company called Dark Fission, said most venture capital investors lack the appetite to wait for financial returns in nuclear propulsion that they may see in 15 or 20 years.

“It’s a truism: Space is hard,” said Kennedy, a former DARPA program manager. “Nuclear turns out to be hard for reasons we can all understand. So space-nuclear is hard-squared, folks. As a result, you give this to your average associate at a VC firm and they get scared quick. They see the moles all over your face, and they run away screaming.”

But commercial launch costs are coming down. With sustained government investment and streamlined regulations, “this is the best chance we’ve had in a long time” to get a nuclear propulsion system into space, Kennedy said.

Technicians prepare a nozzle for a prototype nuclear thermal rocket engine in 1964. Credit: NASA

“I think, right now, we’re in this transitional period where companies like mine are going have to rely on some government largesse, as well as hopefully both commercial partnerships and honest private investment,” Kennedy said. “Three years ago, I would have told you I thought I could have done the whole thing with private investment, but three years have turned my hair white.”

Those who share Kennedy’s view thought they were getting an ally in the Trump administration. Jared Isaacman, the billionaire commercial astronaut Trump nominated to become the next NASA administrator, promised to prioritize nuclear propulsion in his tenure as head of the nation’s space agency.

During his Senate confirmation hearing in April, Isaacman said NASA should turn over management of heavy-lift rockets, human-rated spacecraft, and other projects to commercial industry. This change, he said, would allow NASA to focus on the “near-impossible challenges that no company, organization, or agency anywhere in the world would be able to undertake.”

The example Isaacman gave in his confirmation hearing was nuclear propulsion. “That’s something that no company would ever embark upon,” he told lawmakers. “There is no obvious economic return. There are regulatory challenges. That’s exactly the kind of thing that NASA should be concentrating its resources on.”

But the White House suddenly announced on Saturday that it was withdrawing Isaacman’s nomination days before the Senate was expected to confirm him for the NASA post. While there’s no indication that Trump’s withdrawal of Isaacman had anything to do with any specific part of the White House’s funding plan, his removal leaves NASA without an advocate for nuclear propulsion and a number of other projects falling under the White House’s budget ax.

Some parts of Trump’s proposed budget for NASA are literally draconian Read More »

White House may seek to slash NASA’s science budget by 50 percent

nasa budget, Science, Space / Beth Washington / March 9, 2025

In many ways, NASA’s science directorate is the crown jewel of the space agency. Nearly all of the most significant achievements over the last 25 years have been delivered by the science programs: Ingenuity flying on Mars, New Horizons swooping by Pluto, images from the James Webb Space Telescope, the discovery of thousands of exoplanets, the return of samples from asteroids and comets, Cassini’s discovery of water plumes on Enceladus, a continuous robotic presence on Mars, and so much more. Even the recent lunar landings by Firefly and Intuitive Machines were funded by NASA’s science directorate.

Of NASA’s roughly $25 billion budget, however, only about 30 percent is allocated to science. For fiscal year 2024, this amounted to $7.4 billion. This spending was broken down into approximately $2.7 billion for planetary science, $2.2 billion for Earth science, $1.5 billion for astrophysics, and $800 million for heliophysics.

NASA science funding since 1980. Credit: Casey Dreier/The Planetary Society

The proposed cuts are being driven by Russell Vought, the recently confirmed director of the White House Office of Management and Budget, which sets budget and policy priorities for a presidential administration. In some sense, the budgetary decisions should not come as a surprise, as they are consistent with what Vought proposed in a “shadow” budget for fiscal-year 2023 as part of his Center for Renewing America.

“The budget also proposes a 50 percent reduction in NASA Science programs and spending, reducing their misguided Carbon Reduction System spending and Global Climate Change programs,” Vought’s organization wrote in its report published in December 2022.

Zeroing out Earth science?

Despite Vought’s desire, however, NASA is expressly charged with studying our planet.

The congressional act that created NASA in 1958 calls for the space agency to expand human knowledge about Earth’s atmosphere and space, and the agency’s Earth observation satellites have substantially increased our understanding of this planet’s weather, changing climate, and land use.

Even if NASA’s Earth science budget were taken to zero, cutting the overall science budget in half would still dramatically reduce funding in planetary science as well as other research areas. Scientists told Ars that NASA would be forced to make difficult decisions, likely including shutting off extended missions such as the Voyager and Curiosity probes on Mars, and possibly even the Hubble Space Telescope. It might be possible to save missions in later stages of development, such as the Dragonfly probe to Saturn’s moon Titan, and the NEO Surveyor mission to search for hazardous asteroids. But it would be impossible to start meaningful new missions to explore the Solar System, potentially setting back planetary exploration a decade.

White House may seek to slash NASA’s science budget by 50 percent Read More »

NASA grapples with budget cuts as it undertakes ambitious programs

nasa budget, Space / DJ Henderson / March 12, 2024

PBR me —

“Naturally, we have to make hard choices.”

Eric Berger – Mar 11, 2024 10: 32 pm UTC

An older man in a suit smiles. — Enlarge / NASA Administrator Bill Nelson is putting a positive spin on NASA’s budget.

It’s budget-palooza, NASA nerds. For the first time in more than a decade, the US space agency is grappling with budget cuts. Be forewarned, there will be a lot of numbers in this story, but we’ll do our best to make sense of them.

First of all, the space agency only just received its budget for the current fiscal year (October 1, 2023, to September 30, 2024) last Friday. If it seems weird that a federal agency should find out how much money it has to spend nearly halfway through that budget year, well, it is. But this is the world we live in, with a fractious Congress unable to agree on much of anything, including budgets.

In any case, NASA’s budget for fiscal year 2024 came to $24.9 billion. This represents an approximately 2 percent cut in the space agency’s funding relative to the final budget for fiscal year 2023. It’s worth noting that the last time NASA’s budget decreased from year to year came more than a decade ago, from fiscal year 2012 to 2013. This was due, in large part, to the end of the Space Shuttle program.

This budget cut does not reflect congressional displeasure with NASA’s performance. Rather, to avert a debt limit crisis in June 2023, the US Congress and President Biden agreed to budget caps for fiscal years 2024 and 2025.

“We’re not going to get out of this hole until you finish both fiscal years, 24 and 25,” NASA Administrator Bill Nelson said Monday during a teleconference with reporters. “NASA makes do with whatever we’re given. This is an agency where the impossible becomes possible.”

FY 2025 request

On Monday, mere hours after finally learning its final budget for the current year, NASA released its budget request for the coming fiscal year, 2025. All of the federal agencies did so on Monday in conjunction with the rollout of the president’s budget request for FY 2025.

Such budget requests are part of the political theater of Washington, DC. The White House has the power to appoint the leaders of federal agencies, such as NASA. However, Congress authorizes funding, so the final budget will be subject to negotiations among the House, Senate, and the White House.

The blueprint clearly outlines the White House’s priorities regarding NASA’s direction. The space agency’s budget request can be found here. The Planetary Society has published a useful comparison here that delineates the NASA budget for 2023, the president’s budget request for 2024, and the final budget enacted last week.

NASA is asking for $25.4 billion for the coming fiscal year. This is more than the agency will receive in fiscal year 2024 but significantly less than the $27.2 billion NASA asked for in last year’s budget request. Put another way, NASA has recognized the real-world constraints and is asking for 7 percent less funding this year than it did in 2023.

“Naturally, we have to make hard choices,” Nelson said.

About those hard choices

There are no significant changes in NASA’s proposed budget for the Artemis program, which seeks to return humans to the Moon later this decade. There remains broad support in Congress for this program, at least for the initial lunar landings. Funding for the Artemis landings, which have a mix of cost-plus and fixed-price contracts, should more or less continue.

The harder choices will have to be made in the science portion of NASA’s budget, which covers planetary missions as well as deep space observatories. In particular, NASA requested $2.7 billion for planetary science missions in fiscal year 2025, virtually the same amount received this fiscal year.

But there’s a catch: This funding level includes no allocation for the Mars Sample Return mission, a multi-year, multi-billion-dollar program to return rock samples from Mars to Earth for scientific study. This mission is a high priority for NASA and the scientific community, but the overall plans were recently declared to be “unrealistic” by an independent review board.

A NASA committee is studying alternative mission designs to bring Mars samples back to Earth with better cost and schedule estimates. It will release its findings later this month. After that time, NASA may reformulate plans and allocate funding for the Mars Sample Return. The catch is that it would not seek new funding but rather pull money from other planetary science missions.

“We don’t expect that the planetary top line will go up,” said Nicky Fox, chief of science for NASA, during the press call.

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