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[NASA] NASA Armstrong Contributions Propel Artemis, Deep Space Innovation

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Preparations for Next Moonwalk Simulations Underway (and Underwater)

NASA is leveraging expertise, capabilities, and partnerships across its centers to make Artemis campaign and deep space exploration safer, more reliable, and efficient. At NASA’s Armstrong Flight Research Center in Edwards, California, contributions include technical leadership, unique flight-testing capabilities, and management of a key technology program that advances critical exploration concepts.

Artemis II is an upcoming challenging test flight, and the lessons learned will directly prepare NASA to return humans to the surface of the Moon on Artemis III and beyond, as well as send the first astronauts – Americans – to Mars.

Gulfstream G-III aircraft collects heat shield data

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A NASA Gulfstream G-III aircraft lifts off from NASA’s Armstrong Flight Research Center in Edwards, California, on Tuesday, Jan. 20, 2026. Modifications were made to the aircraft to enable it to join three others flying at different altitudes to capture a complete view of the Orion spacecraft’s heat shield during Artemis II reentry. This effort is part of NASA’s Scientifically Calibrated In-Flight Imagery project.
NASA/Carla Thomas

As preparations continue for the

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launch, NASA Armstrong technicians modified a Gulfstream G-III to collect heat shield data during Orion’s reentry. As part of
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, the G-III will join other aircraft to capture Orion’s thermal protection data.

“Before the Artemis II mission begins, the aircraft will complete a dress rehearsal over the Pacific Ocean to verify the airborne system performance,” said Robert Navarro, NASA Armstrong support aircraft fleet project manager.

Technicians at NASA’s Johnson Space Center in Houston installed sensors and special windows for the imagery mission with assistance from NASA Armstrong technicians.

Measuring Orion’s reentry heat

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Inside the Neil Armstrong Operations and Checkout Building high bay at NASA’s Kennedy Space Center in Florida, from left, technicians Kenny Leidner, Diamond ScharSenstine, Russ Novak and Darlene Beville with ASRC Federal, inspect AVOCAT block bonding on the Artemis II heat shield on July 2, 2020. The heat shield is one of the most critical elements of Orion and will protect the capsule and astronauts during reentry through Earth’s atmosphere. Artemis II is the first crewed mission in a series of missions to the Moon and on to Mars. Artemis II will confirm all of the Orion spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
NASA/Isaac Watson

NASA Armstrong also assists with the

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for Artemis II. The system is designed to collect shock layer radiation data from the heat shield during atmospheric entry, data that will be used to enhance astronaut safety.

NASA Armstrong’s expertise in integrating technologies, high reliability flight test instrumentation, and flight operations are a match for some Artemis and deep space projects.

“There is nothing that can go to space or come back without going through the atmosphere, so our mission of atmospheric flight research and test is very relevant,” said Brad Flick, NASA Armstrong center director. “We specialize in testing technologies and working through the challenges of flight.”

Testing Orion’s launch abort system

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Under the watchful eyes of technicians, a crane positions the Orion Pad Abort-1 Abort Flight Test module for mass properties testing in the Flight Loads Laboratory at NASA’s Armstrong Flight Research Center in Edwards, California.
NASA/Tony Landis
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Teamwork was on full display at NASA’s Armstrong Flight Research Center in Edwards, California, on Aug. 13, 2009, as engineers and technicians prepared the Pad Abort-1 vehicle – the Orion launch abort system development test article. After assembly and integration, the mock crew capsule was transported to the U.S. Army’s White Sands Missile Range in New Mexico where it successfully completed its test on May 6, 2010.
NASA/Tony Landis

NASA Armstrong demonstrated that approach when it tested a system to enable Artemis astronauts to escape harm in the event of an emergency on the ground, or in the boost phase of the

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.

“We proved the system could get the astronauts to safety,” said Cathy Bahm, project manager for NASA’s Low ***** Flight Demonstrator. Earlier in her career, she played key roles in engineering, integration, and management for Pad Abort-1 and Ascent Abort-2 that validated the Orion spacecraft’s launch abort system.

Armstrong integrated and tested the capsule and abort system and operations at the launch abort pad at White Sands Test Facility in New Mexico for the Pad Abort-1 test.

“Hopefully we’ll never need it, but knowing I contributed to the safety of future astronauts is a highlight of my career,” Bahm said. “Looking back on it, it was a tremendous accomplishment for the center, the team, and a contribution to the future of space travel.”

Flight Opportunities program advances space tech

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A NASA F/A-18 research aircraft flies near NASA’s Armstrong Flight Research Center in Edwards, California, on Feb. 24, 2025, testing a commercial precision landing technology for future space missions. The Psionic Space Navigation Doppler Lidar (PSNDL) system is installed in a pod located under the right wing of the aircraft.
NASA

Another contributor to future space travel is the

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, which matures capabilities needed for NASA missions and commercial applications while strategically investing in the growth of the U.S. commercial spaceflight industry. NASA Armstrong manages the program, which supports flight testing of promising technologies, instruments, and experiments aboard commercial vehicles. Part of the agency’s
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, the program identifies the best ideas – from industry, academia, and NASA researchers – for flight testing.

Flight Opportunities

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and optical communications technologies for future lunar missions.

“Landing safely in shadowed lunar regions is critical,” said Greg Peters, Flight Opportunities program manager.

Another deep space technology Flight Opportunities supported was a vibration isolation platform that helped provide

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for
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. That instrument used lasers to transmit data between Earth and the Psyche spacecraft from more than 215 million miles away, which could benefit future missions to Mars.

NASA Armstrong tested

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navigation on an F/A-18 to prepare for Moon and Mars missions.

Contributions to Artemis, deep space exploration

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April Torres and Angelo De La Rosa remove wire harnesses for signal input for the Orion Ascent Abort-2 vehicle from electrostatic discharge protective covers at NASA’s Armstrong Flight Research Center in California.
NASA/Lauren Hughes

NASA Armstrong’s work supporting Artemis and future deep space exploration missions also includes:

  • A NASA F/A-18 based at NASA Armstrong tested an
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    for the SLS (Space Launch System) that proved sensors would work at the trajectory needed for landing on Mars.
  • NASA Armstrong researchers advanced a Fiber Optic Sensing System that flew in space for the first time on the
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    .
  • NASA Armstrong researchers developed a cryogenic
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    , called CryoFOSS, to support future deep space missions. CryoFOSS was used during testing of a system designed to liquefy oxygen – as it would on the Moon or Mars – for use as return-trip fuel. By producing fuel on-site, missions could avoid carrying return fuel from Earth, significantly reducing launch weight and overall mission cost.
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    when the Orion spacecraft launch abort system was demonstrated.
  • Before the Ascent Abort-2 tests could advance, NASA Armstrong assisted with
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    .
  • NASA Armstrong
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    documented the Orion parachute tests in Yuma, Arizona.

Under the Artemis campaign, NASA is returning humans to the Moon for economic benefits, scientific discovery, and to prepare for crewed missions to Mars.

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Last Updated
Feb 04, 2026
Editor
Dede Dinius
Contact
Teresa Whiting

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