Artist’s concept of Phase 3 of NASA’s Moon Base.
Credit: NAS
As part of its “Ignition” event on Tuesday, NASA announced a series of
transformative agencywide initiatives designed to achieve President Donald J.
Trump’s National Space Policy and advance American leadership in space. These
actions reflect the urgency of the moment, but also the tremendous opportunity
ahead for world-changing science and discovery.
“NASA is committed to achieving the
near‑impossible once again, to return to the Moon before the end of President
Trump’s term, build a Moon base, establish an enduring presence, and do the
other things needed to ensure American leadership in space. This is why it is
essential we leave an event like Ignition with complete alignment on the
national imperative that is our collective mission. The clock is running in
this great‑power competition, and success or failure will be measured in
months, not years,” said NASA Administrator Jared Isaacman. “If we concentrate
NASA’s extraordinary resources on the objectives of the National Space Policy,
clear away needless obstacles that impede progress, and unleash the workforce
and industrial might of our nation and partners, then returning to the Moon and
building a base will seem pale in comparison to what we will be capable of
accomplishing in the years ahead.”
NASA Associate Administrator Amit
Kshatriya said, “Today we are aligning NASA around the mission. On the Moon, we
are shifting to a focused, phased architecture that builds capability landing
by landing, incrementally, and in alignment with our industrial and
international partners. In low Earth orbit (LEO), we are recognizing where the
market is and where it isn’t, recognizing the incredible value of the
International Space Station, and building a transition that builds a
competitive commercial ecosystem rather than forcing a single outcome the
market cannot support. In our science missions, we are opening the lunar
surface to researchers and students nationwide, and with Space Reactor‑1
Freedom, we are finally putting nuclear propulsion on a trajectory out of the
laboratory and into deep space. And this is all possible by investing in our
people, bringing critical skills back into the agency, putting our teams where
the machines are being built, and creating real pathways for the next
generation of NASA leaders. Our workforce is the jewel of NASA, and from their
leaders, they need clear mission goals, the tools to execute, and to get out of
their way. This is what Ignition is about.”
Going back to the Moon
The announcements build on recent updates to the Artemis program, including standardizing the SLS (Space Launch
System) rocket configuration, adding an additional mission in 2027, and
undertaking at least one surface landing every year thereafter. Under this
previously updated architecture, Artemis III – scheduled for 2027 – will focus
on testing integrated systems and operational capabilities in Earth orbit in
advance of the Artemis IV lunar landing.
Looking beyond Artemis V, NASA
announced March 24 it will begin to incorporate more commercially procured and
reusable hardware to undertake frequent and affordable crewed missions to the
lunar surface, initially targeting landings every six months, with the
potential to increase cadence as capabilities mature.
To achieve an enduring human
presence on the Moon, NASA also announced a phased approach to building a lunar
base. As part of this strategy, the agency intends to pause Gateway in its
current form and shift focus to infrastructure that enables sustained surface
operations. Despite challenges with some existing hardware, the agency will
repurpose applicable equipment and leverage international partner commitments
to support these objectives.
In the coming days, NASA will
release Requests for Information (RFIs) and draft Requests for Proposals (RFPs)
to ensure continued progress in meeting national objectives.
Building the Moon Base
NASA’s plan for establishing a
sustained lunar presence will roll out in three deliberate phases.
- Phase One: Build, Test,
Learn
NASA shifts from bespoke, infrequent missions to a repeatable, modular approach. Through CLPS (Commercial Lunar Payload Services) deliveries and the LTV (Lunar Terrain Vehicle) program, the agency will increase the tempo of lunar activity, sending rovers, instruments, and technology demonstrations that advance mobility, power generation (including radioisotope heater units and radioisotope thermoelectric generators), communications, navigation, surface operations, and a wide range of scientific investigations.
- Phase Two: Establish Early
Infrastructure
With lessons from early missions in hand, NASA moves toward semi‑habitable infrastructure and regular logistics. This phase supports recurring astronaut operations on the surface and incorporates major international contributions, including JAXA’s (Japan Aerospace Exploration Agency) pressurized rover, and potentially other partner scientific payloads, rovers, and infrastructure/transportation capabilities.
- Phase Three: Enable Long‑Duration
Human Presence
As cargo‑capable human landing systems (HLS) come online, NASA will deliver heavier infrastructure needed for a continuous human foothold on the Moon, marking the transition from periodic expeditions to a permanent lunar base. This will include ASI’s (Italian Space Agency) Multi-purpose Habitats (MPH), CSA’s (Canadian Space Agency) Lunar Utility Vehicle, and opportunities for additional contributions in habitation, surface mobility and logistics.
Ensuring American presence in low
Earth orbit
While building a sustainable lunar
architecture, NASA is also reaffirming its commitment to low Earth orbit. For
more than two decades, the International Space Station has served as a world‑class
orbital laboratory, enabling more than 4,000 research investigations,
supporting more than 5,000 researchers, and hosting visitors from 26 countries.
The space station required 37 shuttle flights, 160 spacewalks, two decades, and
more than $100 billion to design, develop, and build. The orbital laboratory
cannot operate indefinitely. The transition to commercial stations must be
thoughtful, deliberate, and structured to support long‑term industry success.
NASA is introducing and seeking
industry feedback on an additional LEO strategy that preserves all current
pathways while adding a phased, International Space Station‑anchored approach
to avoid any gap in U.S. human presence and mature a robust commercial
ecosystem. Under this alternative approach, NASA would procure a government‑owned
Core Module that attaches to the space station, followed by commercial modules
that are validated using International Space Station capabilities and later
detach into free flight. After maturing technical and operational capabilities
and market demand is realized, the stations would detach and NASA would be one
of many customers purchasing commercial services. To stimulate the orbital
economy, NASA would expand industry opportunities, including private astronaut
missions, commander seat sales, joint missions, multiple module competitions,
and prize‑based awards.
An industry RFI opens Wednesday,
March 25, to inform partnership structures, financing, and risk mitigation.
Advancing world-changing discovery
with current, developing science missions
In a Golden Age of exploration and
discovery, NASA takes full advantage of every opportunity to get science into
space. The James Webb Space Telescope continues to transform our understanding
of the early universe, Parker Solar Probe has flown through the atmosphere of
the Sun, NASA has shown it can defend the planet by deflecting asteroids, and
Earth science data is used extensively by American companies, U.S. agriculture,
and disaster relief. On the International Space Station, NASA is conducting
groundbreaking experiments in quantum science.
Future opportunities will advance
U.S. leadership in space science. The Nancy Grace Roman Space Telescope,
launching as early as this fall, will advance our understanding of dark energy,
and has created a new standard for the management of large science missions.
Dragonfly will launch a nuclear-powered octocopter in 2028, arriving at
Saturn’s moon Titan in 2034 to explore its complex, organic-rich environment.
In 2028, NASA will launch and deliver ESA’s (European Space Agency) Rosalind
Franklin Rover to Mars, with NASA’s contributed mass spectrometer for the Mars
Organic Molecule Analyzer (MOMA) instrument, which may result in the most
advanced detection and analysis of organic matter ever conducted on Mars. A new
Earth science mission launching next year will measure for the first time the
evolution of the dynamics within convective storms to improve the prediction of
extreme weather events up to six hours before the storm occurs.
The agency detailed how
advancements in lunar science also will be afforded by the build out of the
Moon Base and underpin future Moon and Mars exploration. With an accelerated
CLPS cadence, targeting up to 30 robotic landings starting in 2027, NASA is expediting
delivery of science and technology to the lunar surface. There will be many
opportunities for payload delivery including rovers, hoppers, and drones with
contributions welcomed from industry, academia, and international partners.
Near-term payloads include the VIPER rover and the LuSEE‑Night mission. An RFI
will be released March 24 that calls for payloads capable of supporting NASA’s
science and technology goals for additional 2027 and 2028 flights. It will
enable students and researchers across the country to work on scientific instruments
for use on the surface of the Moon in the years ahead. This RFI also will
solicit payloads incorporated on future missions to Mars including the Mars
Telecom Network (MTN) and a nuclear technology demonstration mission.
The agency intends to partner with
philanthropic and privately funded research organizations with shared
objectives in space science.
Other RFIs released March 24 will
strengthen “Science as a Service” partnerships and commercial capabilities,
allowing NASA to streamline legacy operations and focus investment on the
transformational missions only the agency can lead.
Finally, NASA will unveil a
previously unseen pair of images from the James Webb and Hubble Space
Telescopes. These images show the planet Saturn in unprecedented detail in both
infrared and visible wavelengths.
America underway on nuclear power
in space
In addition to these scientific
missions, after decades of study and in response to the National Space Policy,
NASA announced a major step forward in bringing nuclear power and propulsion
from the lab to space.
NASA will launch the Space Reactor‑1
Freedom, the first nuclear powered interplanetary spacecraft, to Mars before
the end of 2028, demonstrating advanced nuclear electric propulsion in deep
space. Nuclear electric propulsion provides an extraordinary capability for
efficient mass transport in deep space and enables high power missions beyond
Jupiter where solar arrays are not effective.
When SR-1 Freedom reaches Mars, it
will deploy the Skyfall payload of Ingenuity‑class helicopters to continue
exploring the Red Planet. SR-1 Freedom will establish flight heritage nuclear
hardware, set regulatory and launch precedent, and activate the industrial base
for future fission power systems across propulsion, surface, and long‑duration
missions. NASA and its U.S. Department of Energy partner will unlock the
capabilities required for sustained exploration beyond the Moon and eventual
journeys to Mars and the outer solar system.
None of these endeavors can succeed
without the NASA workforce. As previously announced, the agency is rebuilding
its core competencies, converting thousands of contractor positions to civil
service, and restoring the engineering, technical, and operational strengths
expected of the world’s premier space organization.
NASA is expanding opportunities for
interns and early‑career professionals and, in partnership with the U.S. Office
of Personnel Management and NASA Force, is creating new pathways for experienced industry talent to serve through
term‑based appointments. The agency also is seeking to open opportunities for
NASA employees to gain valuable experience working within the most
technologically advanced space industry in history.
The changes announced on March 24
will be implemented during the coming months, with teams agencywide ensuring a
smooth transition while advancing key programs and partnerships.
NASA will embed subject‑matter
experts across the supply chain – at every major vendor, subcontractor, and
critical‑path component – to challenge assumptions, solve problems, accelerate
production, and help ensure the right outcomes are achieved.
Through these reforms, NASA is
strengthening its ability to deliver on the President’s National Space Policy
and ensure continued American superiority in space.
Learn more about NASA’s Ignition news online: https://www.nasa.gov/ignition
Camille
Gallo / George Alderman
Headquarters, Washington
Source: NASA Unveils Initiatives to Achieve America’s National Space Policy - NASA
