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By NASA
The NASA Ames Science Directorate recognizes the outstanding contributions of (pictured left to right) Dennis Leveson-Gower and Laura Iraci. Their commitment to the NASA mission represents the entrepreneurial spirit, technical expertise, and collaborative disposition needed to explore this world and beyond.
Space Biosciences Star: Dennis Leveson-Gower
Dennis Leveson-Gower, Assistant Branch Chief of Bioengineering, has contributed to numerous projects and payloads within the Space Biosciences Division since 2012. He is recognized for exceptional leadership, operational excellence, and strategic collaboration that have advanced the Bioengineering Branch and strengthened partnerships with commercial spaceflight organizations.
Earth Science Star: Laura Iraci
Laura Iraci is a Senior Research Scientist in the Atmospheric Science Branch. She is recognized for her outstanding scientific leadership and her impactful role as a mentor. As head of the Trace Gas Group, Laura develops and deploys custom atmospheric sampling and remote sensing instrumentation for critical NASA suborbital and spaceflight missions, including major airborne science field campaigns. She is equally dedicated to mentoring early-career researchers, with many advancing into highly productive staff positions at NASA.
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By NASA
NASA astronaut and Expedition 72 Flight Engineer Don Pettit sets up camera hardware to photograph research activities inside the International Space Station’s Kibo laboratory module on March 15, 2025.Credit: NASA Media are invited to a news conference at 2 p.m. EDT Monday, April 28, at NASA’s Johnson Space Center in Houston where astronaut Don Pettit will share details of his recent mission aboard the International Space Station.
The news conference will stream live on NASA’s website. Learn how to stream NASA content through a variety of platforms.
To participate in person, U.S. media must contact the NASA Johnson newsroom no later than 5 p.m. Thursday, April 24, at 281-483-5111 or jsccommu@mail.nasa.gov. Media wishing to participate by phone must contact the newsroom no later than two hours before the start of the event. To ask questions by phone, media must dial into the news conference no later than 10 minutes prior to the start of the call. NASA’s media accreditation policy is available online.
Questions also may be submitted on social media during the news conference by using #AskNASA. Following the news conference, NASA will host a live question and answer session with Pettit on the agency’s Instagram. For more information, visit @NASA on social media.
Pettit returned to Earth on April 19 (April 20, Kazakhstan time), along with Roscosmos cosmonauts Alexey Ovchinin and Ivan Vagner. Pettit celebrated his 70th birthday on April 20. He spent 220 days in space as an Expedition 71/72 flight engineer, bringing his career total to 590 days in space during four spaceflights. Pettit and his crewmates completed 3,520 orbits of Earth over the course of their 93-million-mile journey. They also saw the arrival of six visiting spacecraft and the departure of seven.
During his time on orbit, Pettit conducted hundreds of hours of scientific investigations, including research to enhance on-orbit metal 3D printing capabilities, advance water sanitization technologies, explore plant growth under varying water conditions, and investigate fire behavior in microgravity, all contributing to future space missions.
He also spent time aboard the space station sharing his photography, often posting images to his X account. He took more than 670,000 photos during his stay.
Learn more about International Space Station research and operations at:
http://www.nasa.gov/station
-end-
Joshua Finch / Claire O’Shea
Headquarters, Washington
202-358-1100
joshua.a.finch@nasa.gov / claire.a.o’shea@nasa.gov
Chelsey Ballarte
Johnson Space Center, Houston
281-483-5111
chelsey.n.ballarte@nasa.gov
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Last Updated Apr 23, 2025 LocationNASA Headquarters Related Terms
International Space Station (ISS) Astronauts Humans in Space ISS Research Johnson Space Center View the full article
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By NASA
4 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
Researchers use a flat aerogel array antenna to communicate with a geostationary satellite above the Earth during tests at NASA’s Glenn Research Center in Cleveland.Credit: NASA/Jordan Cochran NASA engineers are using one of the world’s lightest solid materials to construct an antenna that could be embedded into the skin of an aircraft, creating a more aerodynamic and reliable communication solution for drones and other future air transportation options.
Developed by NASA, this ultra-lightweight aerogel antenna is designed to enable satellite communications where power and space are limited. The aerogel is made up of flexible, high-performance plastics known as polymers. The design features high air content (95%) and offers a combination of light weight and strength. Researchers can adjust its properties to achieve either the flexibility of plastic wrap or the rigidity of plexiglass.
“By removing the liquid portion of a gel, you’re left with this incredibly porous structure,” said Stephanie Vivod, a chemical engineer at NASA’s Glenn Research Center in Cleveland. “If you’ve ever made Jell-O, you’ve performed chemistry that’s similar to the first step of making an aerogel.”
NASA sandwiched a layer of aerogel between a small circuit board and an array of thin, circular copper cells, then topped the design off with a type of film known for its electrical insulation properties. This innovation is known at NASA and in the aviation community as an active phased array aerogel antenna.
A sample of aerogel is folded to demonstrate its flexibility during testing at NASA’s Glenn Research Center in Cleveland.Credit: NASA In addition to decreasing drag by conforming to the shape of aircraft, aerogel antennas save weight and space and come with the ability to adjust their individual array elements to reduce signal interference. They are also less visually intrusive compared to other types of antennas, such as spikes and blades. The finished product looks like a honeycomb but lays flat on an aircraft’s surface.
In the summer of 2024, researchers tested a rigid version of the antenna on a Britten-Norman Defender aircraft during an in-flight demonstration with the U.S. Navy at Naval Air Station Patuxent River in Maryland.
A Britten-Norman Defender aircraft outfitted with an advanced phased array antenna prototype for a flight test in summer 2024. The aircraft was used to verify data transmission quality and communications link resiliency with a low Earth orbit satellite.Credit: U.S. Navy Then, last October, researchers at NASA Glenn and the satellite communications firm Eutelsat America Corp., of Houston, began ground testing a version of the antenna mounted to a platform. The team successfully connected with a Eutelsat satellite in geostationary orbit, which bounced a signal back down to a satellite dish on a building at Glenn. Other demonstrations of the system at Glenn connected with a constellation of communications satellites operated in low Earth orbit by the data relay company Kepler. NASA researchers will design, build, and test a flexible version of the antenna later this year.
“This is significant because we are able to use the same antenna to connect with two very different satellite systems,” said Glenn researcher Bryan Schoenholz. Low Earth orbit satellites are relatively close – at 1,200 miles from the surface – and move quickly around the planet. Geostationary satellites are much farther – more than 22,000 miles from the surface – but orbit at speeds matching the Earth’s rotation, so they appear to remain in a fixed position above the equator.
NASA Glenn Research Center’s Sarah Dever and Mick Koch, electrical engineers, command an active phased array antenna to point toward a geostationary satellite. They used a flat version of an aerogel antenna during tests in October 2024.Credit: NASA/Jordan Cochran The satellite testing was crucial for analyzing the aerogel antenna concept’s potential real-world applications. When modern aircraft communicate with stations on the ground, those signals are often transmitted through satellite relays, which can come with delays and loss of communication. This NASA-developed technology will make sure these satellite links are not disrupted during flight as the aerogel antenna’s beam is a concentrated flow of radio waves that can be electronically steered with precision to maintain the connection.
As new types of air transportation options are brought to the market and U.S airspace – from the small, piloted aircraft of today to the autonomous air taxis and delivery drones of tomorrow – these kinds of steady connections will become increasingly important. That’s why NASA’s Advanced Air Mobility mission and Transformative Aeronautics Concepts program are supporting research like the aerogel antennas that can boost industry efforts to safely expand the emerging marketplace for these transportation systems.
“If an autonomous air taxi or drone flight loses its communications link, we have a very unsafe situation,” Schoenholz said. “We can’t afford a ‘dropped call’ up there because that connection is critical to the safety of the flight.”
Schoenholz, Vivod, and others work on NASA’s Antenna Deployment and Optimization Technologies activity within the Transformational Tools and Technologies project. The activity aims to develop technologies that reduce the risk of radio frequency interference from air taxis, drones, commercial passenger jets, and other aircraft in increasingly crowded airspace.
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By Space Force
These Firm Fixed-Price, Indefinite-Delivery Requirements contracts were awarded to SpaceX, United Launch Services, and Blue Origin to provide critical space support to meet national security objectives.
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By NASA
NASA’s Stennis Space Center employees were recognized with Honoree Awards from NASA’s Space Flight Awareness Program during a March 10 ceremony in Orlando, Florida, for outstanding support of human spaceflight.
Stennis Space Center employee Melissa Wagner of Pass Christian, Mississippi, is presented with the NASA Space Flight Awareness Program Honoree Award during a March 10 ceremony. Wagner (second from left) receives the award from (left to right): NASA astronaut Randy Bresnik, NASA Exploration Systems Development Mission Directorate Acting Associate Administrator Dr. Lori Glaze, and NASA Space Operations Mission Directorate Associate Administrator Kenneth Bowersox. NASA/Kennedy Space Center Melissa Wagner of Pass Christian, Mississippi, is a NASA contract specialist in the Office of Procurement at NASA Stennis. She received the honor for contributions to NASA’s Artemis campaign by identifying potential risks related to propulsion test efforts in support of the initiative, resulting in successful mitigation actions.
NASA’s Stennis Space Center employee Samone Wilson of Hattiesburg, Mississippi, is presented with the NASA Space Flight Awareness Program Honoree Award during a March 10 ceremony. Wilson (second from left) receives the award from (left to right): NASA astronaut Randy Bresnik, NASA Space Operations Mission Directorate Associate Administrator Kenneth Bowersox, and NASA Exploration Systems Development Mission Directorate Acting Associate Administrator Dr. Lori Glaze.NASA/Kennedy Space Center Samone Wilson of Hattiesburg, Mississippi, is a NASA public affairs specialist in the Office of Communications at NASA Stennis. She received the honor for her work in telling others about NASA and NASA Stennis activities and missions.
Timothy Miller of Pearl River, Louisiana, is a senior drafter for Syncom Space Services at NASA Stennis. Although unable to attend the ceremony, he received the honor for contributions supporting flight systems integration, facility readiness, and cost reduction with his use of Creo Parametric modeling, a powerful 3D software.
Madison Monti of Kiln, Mississippi, is a security support specialist for Chenega Global Protection at NASA Stennis. Although unable to attend the ceremony, she received the honor for contributions supporting the badging office at NASA Stennis to ensure a consistent, efficient, and secure process.
NASA astronaut Randy Bresnik, Space Operations Mission Directorate Associate Administrator Kenneth Bowersox, and Exploration Systems Development Mission Directorate Acting Associate Administrator Dr. Lori Glaze presented the awards.
Bresnik, assistant-to-the-chief of the Astronaut Office for Exploration, was selected as a NASA astronaut in 2004. He manages the development and testing of everything that will operate beyond low-Earth orbit on Artemis missions. Bresnik previously served as commander of the International Space Station for Expedition 53 and flight engineer for Expedition 52.
In recognition of flight program contributions, honorees toured NASA’s Kennedy Space Center in Florida and viewed the SpaceX Dragon spacecraft named Endurance in conjunction with the launch of NASA’s SpaceX Crew-10.
The spacecraft carried NASA astronauts Anne McClain and Nichole Ayers, JAXA (Japan Aerospace Exploration Agency) astronaut Takuya Onishi, and Roscomos cosmonaut Kirill Pesko to the International Space Station on March 14 as part of NASA’s Commercial Crew Program. NASA’s Space Flight Awareness Program recognizes outstanding job performances and contributions by civil service and contract employees throughout the year and focuses on excellence in quality and safety in support of human spaceflight. The Honoree Award is one of the highest honors presented to employees for their dedication to quality work and flight safety. Recipients must have contributed beyond their normal work requirements toward achieving a particular human spaceflight program goal; contributed to a major cost savings; been instrumental in developing material that increases reliability, efficiency or performance; assisted in operational improvements; or been a key player in developing a beneficial process improvement.
For information about Silver Snoopy and other Space Flight Awareness awards, visit:
SFA Honoree Award – NASA
For information about NASA’s Stennis Space Center, visit:
Stennis Space Center – NASA
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