Scientists Discover Volcanoes on Venus Are Still Active

The 3D rendition above shows two coronae observed on the surface of Venus. The ring-like structures are formed when hot material from deep inside the planet rises through the mantle and erupts through the crust. Research by UMD’s Laurent Montesi found that at least 37 coronae on Venus represent recent geologic activity, including the one named Aramaiti, seen on the left in this image. The black line represents a gap in data. (Credit: Laurent Montési)

New 3D model provides evidence that Venus is churning inside

COLLEGE PARK, Md. (University of Maryland PR) — A new study identified 37 recently active volcanic structures on Venus. The study provides some of the best evidence yet that Venus is still a geologically active planet. A research paper on the work, which was conducted by researchers at the University of Maryland and the Institute of Geophysics at ETH Zurich, Switzerland, was published in the journal Nature Geoscience on July 20, 2020.

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Queen’s Brian May Works to Probe Origin of Asteroids

Brian May (Credit: ESA)

NICE, France (ESA PR) — Queen guitarist and astrophysicist Brian May has teamed up with asteroid researchers to investigate striking similarities and a puzzling difference between separate bodies explored by space probes. The research team ran a supercomputer-based ‘fight club’ involving simulated large asteroid collisions to probe the objects’ likely origins. Their work is reported in Nature Communications.  

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NASA to Demonstrate First-of-its-Kind In-Space Manufacturing Technique for Telescope Mirrors

A Goddard engineer won a flight opportunity to show that an advanced thin-film manufacturing technique called atomic layer deposition, or ALD, could apply wavelength-specific reflective coatings on a sample — the first time ALD has been tried in space. (Credits: NASA/W. Hrybyk)

By ​Lori Keesey
NASA Goddard Space Flight Center

GREENBELT, Md. — Large telescopes that could be used for detecting and analyzing Earth-like planets in orbit around other stars or for peering back in time to observe the very early universe may not necessarily have to be built and assembled on the ground. In the future, NASA could construct them in space.

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NASA Microgap-Cooling Technology Immune to Gravity Effects and Ready for Spaceflight

The microgap-cooling technology developed by Goddard technologist Franklin Robinson and University of Maryland professor Avram Bar-Cohen was tested twice on a Blue Origin New Shepard rocket. (Credits: NASA/Franklin Robinson)

by Lori Keesey
NASA’s Goddard Space Flight Center

GREENBELT, Md. — A groundbreaking technology that would allow NASA to effectively cool tightly packed instrument electronics and other spaceflight gear is unaffected by weightlessness, and could be used on a future spaceflight mission.

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University Research Teams Validate Payload Performance on ZERO-G Parabolic Flights

University of Florida students work on revolutionary approach for efficient microgravity transfer line chilldown experiment. (Credit: NASA)

EDWARDS, Calif. (NASA PR) — Several payload proposals selected from NASA’s Research Announcement: Space Technology Research, Development, Demonstration, and Infusion (REDDI) 2016 solicitation flew as part of a Zero Gravity Corporation (ZERO-G) parabolic flight campaign during two weeks in March 2017.

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ZERO-G Research Flights Advance Technology for Future Deep-Space Missions


ORLANDO, Fla,
April 6, 2017 (Zero-G PR) – As part of NASA’s Flight Opportunities Program, Zero Gravity Corporation (ZERO-G®) recently worked with research groups from University of Florida, Carthage College and University of Maryland to validate technology designed to further humanity’s reach into space. A collection of flights on G-FORCE ONE, ZERO-G’s specially modified Boeing 727, gave researchers the chance to run experiments and test innovative systems in the only FAA-approved, manned microgravity lab on Earth.

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NASA Selects CubeSat & NanoSat Proposals for SBIR & STTR Awards

Two ESA CubeSats, the student-built AAUSat-5 and the professional technology demonstrator GomX-3, were deployed together from the International Space Station on 5 October 2015, going on to separate to begin their missions. (Credit: NASA)
Two ESA CubeSats, the student-built AAUSat-5 and the professional technology demonstrator GomX-3, were deployed together from the International Space Station on 5 October 2015, going on to separate to begin their missions. (Credit: NASA)

NASA has selected at at least 28 proposals involving Cube-, nano- and micro-sats for Small Business Innovation Research (SBIR) and Small Business Technology Transfer Research (STTR) Phase I awards.

The total includes 23 SBIR and five STTR projects. Companies are partnered with university researchers for the STTR awards.

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UMD Opens Orbital Debris Education and Research Center

orbital_debris_nasaCOLLEGE PARK, Md. (UMD PR) — The University of Maryland has announced the establishment of the Center for Orbital Debris Education and Research (CODER) to address critical issues in orbiting space debris and serve as a hub for academic, industry and government research collaboration.

“CODER is the first academically led center established to address the full range of issues surrounding the orbital debris problem,” said founding faculty member and Associate Professor of Aerospace Engineering Raymond Sedwick. “Most existing organizations focus on just one aspect of the problem—tracking, modeling, remediation, mitigation, policy, etc.—but CODER will serve as a research collective to provide expertise in all of these areas.”

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UMD Explores Electromagnetic Propulsion for Spacecafts

RINGS_propulsion
COLLEGE PARK, Md., Aug. 13, 2013 (UMD PR) — New electromagnetic propulsion technology being tested by the University of Maryland’s Space Power and Propulsion Laboratory (SPPL) on the International Space Station could revolutionize the capabilities of satellites and future spacecraft by reducing reliance on propellants and extending the life cycle of satellites through the use of a renewable power source.

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