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Top USSF leaders discuss the Space Force of 2030
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By NASA
Credit: NASA The Trump-Vance Administration released toplines of the President’s budget for Fiscal Year 2026 on Friday. The budget accelerates human space exploration of the Moon and Mars with a fiscally responsible portfolio of missions.
“This proposal includes investments to simultaneously pursue exploration of the Moon and Mars while still prioritizing critical science and technology research,” said acting NASA Administrator Janet Petro. “I appreciate the President’s continued support for NASA’s mission and look forward to working closely with the administration and Congress to ensure we continue making progress toward achieving the impossible.”
Increased commitment to human space exploration in pursuit of exploration of both the Moon and Mars. By allocating more than $7 billion for lunar exploration and introducing $1 billion in new investments for Mars-focused programs, the budget ensures America’s human space exploration efforts remain unparalleled, innovative, and efficient. Refocus science and space technology resources to efficiently execute high priority research. Consistent with the administration’s priority of returning to the Moon before China and putting an American on Mars, the budget will advance priority science and research missions and projects, ending financially unsustainable programs including Mars Sample Return. It emphasizes investments in transformative space technologies while responsibly shifting projects better suited for private sector leadership. Transition the Artemis campaign to a more sustainable, cost-effective approach to lunar exploration. The SLS (Space Launch System) rocket and Orion capsule will be retired after Artemis III, paving the way for more cost-effective, next-generation commercial systems that will support subsequent NASA lunar missions. The budget also ends the Gateway Program, with the opportunity to repurpose already produced components for use in other missions. International partners will be invited to join these renewed efforts, expanding opportunities for meaningful collaboration on the Moon and Mars. Continue the process of transitioning the International Space Station to commercial replacements in 2030, focusing onboard research on efforts critical to the exploration of the Moon and Mars. The budget reflects the upcoming transition to a more cost-effective, open commercial approach to human activities in low Earth orbit by reducing the space station’s crew size and onboard research, preparing for the safe decommissioning of the station and its replacement by commercial space stations. Work to minimize duplication of efforts and most efficiently steward the allocation of American taxpayer dollars. This budget ensures NASA’s topline enables a financially sustainable trajectory to complete groundbreaking research and execute the agency’s bold mission. Focus NASA’s resources on its core mission of space exploration. This budget ends climate-focused “green aviation” spending while protecting the development of technologies with air traffic control and other U.S. government and commercial applications, producing savings. This budget also will ensure continued elimination any funding toward misaligned DEIA initiatives, instead designating that money to missions capable of advancing NASA’s core mission. NASA will continue to inspire the next generation of explorers through exciting, ambitious space missions that demonstrate American leadership in space. NASA will coordinate closely with its partners to execute these priorities and investments as efficiently and effectively as possible.
Building on the President’s promise to increase efficiency this budget pioneers a focused, innovative, and fiscally-responsible path to America’s next great era of human space exploration.
Learn more about the President’s budget request for NASA:
https://www.nasa.gov/budget
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Bethany Stevens
Headquarters, Washington
771-216-2606
bethany.c.stevens@nasa.gov
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Last Updated May 02, 2025 EditorJennifer M. DoorenLocationNASA Headquarters Related Terms
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By European Space Agency
Image: The Ocean and Land Colour Instrument on Copernicus Sentinel-3 captured this image of Earth’s biggest iceberg, A23a, on 5 April 2025. View the full article
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By NASA
3 Min Read NASA Invests in Future STEM Workforce Through Space Grant Awards
NASA is awarding up to $870,000 annually to 52 institutions across the United States, the District of Columbia, and Puerto Rico over the next four years. The investments aim to create opportunities for the next generation of innovators by supporting workforce development, science, technology, engineering and math education, and aerospace collaboration nationwide.
The Space Grant College and Fellowship Program (Space Grant), established by Congress in 1989, is a workforce development initiative administered through NASA’s Office of STEM Engagement (OSTEM). The program’s mission is to produce a highly skilled workforce prepared to advance NASA’s mission and bolster the nation’s aerospace sector.
“The Space Grant program exemplifies NASA’s commitment to cultivating a new generation of STEM leaders,” said Torry Johnson, deputy associate administrator of the STEM Engagement Program at NASA Headquarters in Washington. “By partnering with institutions across the country, we ensure that students have the resources, mentorship, and experiences needed to thrive in the aerospace workforce.”
The following is a complete list of awardees:
University of Alaska, Fairbanks University of Alabama, Huntsville University of Arkansas, Little Rock University of Arizona University of California, San Diego University of Colorado, Boulder University of Hartford, Connecticut American University, Washington, DC University of Delaware University of Central Florida Georgia Institute of Technology University of Hawaii, Honolulu Iowa State University, Ames University of Idaho, Moscow University of Illinois, Urbana-Champaign Purdue University, Indiana Wichita State University, Kansas University of Kentucky, Lexington Louisiana State University and A&M College Massachusetts Institute of Technology Johns Hopkins University, Maryland Maine Space Grant Consortium University of Michigan, Ann Arbor University of Minnesota Missouri University of Science and Technology University of Mississippi Montana State University, Bozeman North Carolina State University University of North Dakota, Grand Forks University of Nebraska, Omaha University of New Hampshire, Durham Rutgers University, New Brunswick, New Jersey New Mexico State University Nevada System of Higher Education Cornell University, New York Ohio Aerospace Institute University of Oklahoma Oregon State University Pennsylvania State University University of Puerto Rico Brown University, Rhode Island College of Charleston, South Carolina South Dakota School of Mines & Technology Vanderbilt University, Tennessee University of Texas, Austin University of Utah, Salt Lake City Old Dominion University Research Foundation, Virginia University of Vermont, Burlington University of Washington, Seattle Carthage College, Wisconsin West Virginia University University of Wyoming Space Grant operates through state-based consortia, which include universities, university systems, associations, government agencies, industries, and informal education organizations engaged in aerospace activities. Each consortium’s lead institution coordinates efforts within its state, expanding opportunities for students and researchers while promoting collaboration with NASA and aerospace-related industries nationwide.
To learn more about NASA’s missions, visit: https://www.nasa.gov/
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By NASA
2 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
Nemanja Jovanovic, lead instrument scientist at Caltech, presents at the Emerging Technologies for Astrophysics workshop, held at NASA’s Ames Research Center in California’s Silicon Valley. The workshop brought together experts in astrophysics to discuss how advanced technologies could impact future mission planning.NASA/Donald Richey The future of astrophysics research could unlock the secrets of the universe, and emerging technologies like artificial intelligence, quantum sensing, and advanced materials may hold the key to faster, more efficient discovery. Advancements and implementations of new technologies are imperative for observational astrophysics to achieve the next level of detection.
NASA’s Emerging Technologies for Astrophysics workshop brought together subject matter experts from industry, government, and academia to explore the state of new and disruptive technologies. The meeting was an effort to identify specific applications for astrophysics missions and better understand how their infusion into future NASA space telescopes could be accelerated.
The workshop took place at NASA’s Ames Research Center in California’s Silicon Valley,. supporting the agency’s efforts to make partnership with public and private industry and collaborative mission planning possible.
“The profound questions about the nature of our universe that astrophysics at NASA answers require giant leaps in technology,” explained Mario Perez, chief technologist for the Astrophysics Division at NASA Headquarters in Washington. “Spotting potential in early-stage tech by encouraging discussions between imaginative researchers helps expand the scope of science and lessen the time required to achieve the next generation of astrophysics missions.”
Emerging technologies like artificial intelligence can support the design and optimization of future missions, and participants focused efforts on combining technologies to push research further. “Cross-pollination” of advanced materials like composites with advanced manufacturing, metamaterials, and photonic chips could support advancement in imaging missions beyond existing mechanical stability needs.
The United Nations Educational, Scientific and Cultural Organization (UNESCO) has dubbed 2025 the “International Year of Quantum Science and Technology” in recognition of a century of quantum mechanics. Workshop participants discussed how quantum sensing could enable more precise measurements, achieve “super resolution” by filling in missing details in lower resolution images, and provide greater capabilities in forthcoming space telescopes.
“This gathering of experts was an opportunity to find ways where we can increase the capabilities of future space instrumentation and accelerate technology development for infusion into NASA astrophysics missions,” said Naseem Rangwala, astrophysics branch chief at NASA Ames. “We can speed up the process of how we develop these future projects by using the emerging technologies that are incubated right here in Silicon Valley.”
The findings from this workshop and ongoing discussions will support efforts to study and invest in technologies to advance astrophysics missions with greater speed and efficiency.
About the Author
Tara Friesen
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Last Updated Apr 29, 2025 Related Terms
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