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One of the most overlooked sequels in Capcom's history, Lost Planet 2 walked so games like Helldivers 2 and Space Marine 2 could run.

NASA’s Human Lander Challenge marked its second year on June 26, awarding $18,000 in prize money to three university teams for their solutions for long-duration cryogenic, or super chilled, liquid storage and transfer systems for spaceflight.

Building on the crewed Artemis II flight test, NASA’s Artemis III mission will send astronauts to explore the lunar South Pole region with a human landing system and advanced spacesuits, preparing humanity to ultimately go to Mars. In-space propulsion systems that use cryogenic liquids as propellants must stay extremely cold to remain in a liquid state and are critical to mission success. The Artemis mission architecture will need these systems to function for several weeks or even months.

Students and advisors with the 12 finalist teams for the 2025 Human Lander Challenge competed in Huntsville, Alabama, near the agency’s Marshall Space Flight Center between June 24-26. NASA/Charles Beason

NASA announced Embry-Riddle Aeronautical University, Prescott as the overall winner and recipient of the $10,000 top prize award. Old Dominion University won second place and a $5,000 award, followed by Massachusetts Institute of Technology in third place and a $3,000 award.

Before the winners were announced, 12 finalist teams selected in April gave their presentations to a panel of NASA and industry judges as part of the final competition in Huntsville. As part of the 2025 Human Lander Challenge, university teams developed systems-level solutions that could be used within the next 3-5 years for Artemis.

NASA selected Embry-Riddle Aeronautical University, Prescott as the overall winner of NASA’s 2025 Human Lander Challenge Forum June 26. Lisa Watson-Morgan, manager of NASA’s Human Landing System Program, presented the awards at the ceremony. NASA/Charles Beason

“Today’s Golden Age of Innovation and Exploration students are tomorrow’s mission designers, systems engineers, and explorers,” said Juan Valenzuela, main propulsion systems and cryogenic fluid management subsystems lead for NASA’s Human Landing System Program at NASA’s Marshall Space Flight Center in Huntsville, Alabama. “The Human Lander Challenge concepts at this year’s forum demonstrate the ingenuity, passion, and determination NASA and industry need to help solve long-duration cryogenic storage challenges to advance human exploration to deep space.”

The challenge is sponsored by the agency’s Human Landing System Program within the Exploration Systems Development Mission Directorate and managed by the National Institute of Aerospace.

Through the Artemis campaign, NASA will send astronauts to explore the Moon for scientific discovery, economic benefits, and to build the foundation for the first crewed missions to Mars – for the benefit of all.

For more information about Artemis missions, visit:

https://www.nasa.gov/artemis

News Media Contact

Corinne Beckinger 
Marshall Space Flight Center, Huntsville, Ala. 
256.544.0034  
corinne.m.beckinger@nasa.gov 

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Details Last Updated Jun 30, 2025 EditorLee MohonContactCorinne M. Beckingercorinne.m.beckinger@nasa.govLocationMarshall Space Flight Center Related Terms

• Human Lander Challenge
• Artemis
• Find Your Place
• For Colleges & Universities
• General
• Human Landing System Program
• Humans in Space
• Learning Resources
• Marshall Space Flight Center

Explore More 3 min read NASA Engineers Simulate Lunar Lighting for Artemis III Moon Landing Article 2 weeks ago 4 min read NASA Marshall Fires Up Hybrid Rocket Motor to Prep for Moon Landings Article 2 months ago 3 min read NASA Selects Finalist Teams for Student Human Lander Challenge Article 3 months ago Keep Exploring Discover More Topics From NASA

Human Landing System

Space Launch System (SLS)

Marshall Space Flight Center manages the Space Launch System (SLS), an integrated super heavy lift launch platform enabling a new…

Humans In Space

Orion Capsule

NASA’s Orion spacecraft is built to take humans farther than they’ve ever gone before. Orion will serve as the exploration…

NASA’s Human Lander Challenge marked its second year on June 26, awarding $18,000 in prize money to three university teams for their solutions for long-duration cryogenic, or super chilled, liquid storage and transfer systems for spaceflight.

Building on the crewed Artemis II flight test, NASA’s Artemis III mission will send astronauts to explore the lunar South Pole region with a human landing system and advanced spacesuits, preparing humanity to ultimately go to Mars. In-space propulsion systems that use cryogenic liquids as propellants must stay extremely cold to remain in a liquid state and are critical to mission success. The Artemis mission architecture will need these systems to function for several weeks or even months.

Students and advisors with the 12 finalist teams for the 2025 Human Lander Challenge competed in Huntsville, Alabama, near the agency’s Marshall Space Flight Center between June 24-26. NASA/Charles Beason

NASA announced Embry-Riddle Aeronautical University, Prescott as the overall winner and recipient of the $10,000 top prize award. Old Dominion University won second place and a $5,000 award, followed by Massachusetts Institute of Technology in third place and a $3,000 award.

Before the winners were announced, 12 finalist teams selected in April gave their presentations to a panel of NASA and industry judges as part of the final competition in Huntsville. As part of the 2025 Human Lander Challenge, university teams developed systems-level solutions that could be used within the next 3-5 years for Artemis.

NASA selected Embry-Riddle Aeronautical University, Prescott as the overall winner of NASA’s 2025 Human Lander Challenge Forum June 26. Lisa Watson-Morgan, manager of NASA’s Human Landing System Program, presented the awards at the ceremony. NASA/Charles Beason

“Today’s Golden Age of Innovation and Exploration students are tomorrow’s mission designers, systems engineers, and explorers,” said Juan Valenzuela, main propulsion systems and cryogenic fluid management subsystems lead for NASA’s Human Landing System Program at NASA’s Marshall Space Flight Center in Huntsville, Alabama. “The Human Lander Challenge concepts at this year’s forum demonstrate the ingenuity, passion, and determination NASA and industry need to help solve long-duration cryogenic storage challenges to advance human exploration to deep space.”

The challenge is sponsored by the agency’s Human Landing System Program within the Exploration Systems Development Mission Directorate and managed by the National Institute of Aerospace.

Through the Artemis campaign, NASA will send astronauts to explore the Moon for scientific discovery, economic benefits, and to build the foundation for the first crewed missions to Mars – for the benefit of all.

For more information about Artemis missions, visit:

https://www.nasa.gov/artemis

News Media Contact

Corinne Beckinger 
Marshall Space Flight Center, Huntsville, Ala. 
256.544.0034  
corinne.m.beckinger@nasa.gov 

Share

Details Last Updated Jun 27, 2025 EditorLee MohonContactCorinne M. Beckingercorinne.m.beckinger@nasa.govLocationMarshall Space Flight Center Related Terms

• Human Lander Challenge
• Artemis
• General
• Human Landing System Program
• Humans in Space
• Marshall Space Flight Center

Explore More 3 min read NASA Engineers Simulate Lunar Lighting for Artemis III Moon Landing Article 2 weeks ago 4 min read NASA Marshall Fires Up Hybrid Rocket Motor to Prep for Moon Landings Article 2 months ago 3 min read NASA Selects Finalist Teams for Student Human Lander Challenge Article 3 months ago Keep Exploring Discover More Topics From NASA

Human Landing System

Space Launch System (SLS)

Marshall Space Flight Center manages the Space Launch System (SLS), an integrated super heavy lift launch platform enabling a new…

Humans In Space

Orion Capsule

NASA’s Orion spacecraft is built to take humans farther than they’ve ever gone before. Orion will serve as the exploration…

This year's $10,000 Schweickart Prize is going to a team of students who are proposing a panel to address the risks that could arise when we start tinkering with asteroids.

JWST is a powerful telescope and has directly observed a handful of exoplanets. But according to a new paper, it could set its sights higher, way higher. Astronomers suggest that Webb's MIRI and NIRCam instruments have the capabilities to detect planets around nearby stars as cold (or colder) than Saturn, at the same orbital separation, mass, and age as Saturn and Jupiter. They also found that clouds can have a big impact on their ability to study the planets, but it's easier for MIRI.

For some lucky viewers, the moon will pass directly in front of Mars.

A flexible fabric called X-Wear could replace some parts of medical scanners, which would make taking X-rays and CT scans far more comfortable and convenient

A flexible fabric called X-Wear could replace some parts of medical scanners, which would make taking X-rays and CT scans far more comfortable and convenient

A solid rocket engine for NASA's Space Launch System rocket experienced an anomaly during a static fire test at the booster's Northrop Grumman facilities June 26.

In 1963, Captain Engle was assigned as one of two Air Force test pilots to fly the X-15 Research Rocket aircraft. In 1965, he flew the X-15 to an altitude of 280,600 feet, and became the youngest pilot ever to qualify as an astronaut. Three of his sixteen flights in the X-15 exceeded the 50-mile (264,000 feet) altitude required for astronaut rating.

In 1963, Captain Engle was assigned as one of two Air Force test pilots to fly the X-15 Research Rocket aircraft. In 1965, he flew the X-15 to an altitude of 280,600 feet, and became the youngest pilot ever to qualify as an astronaut. Three of his sixteen flights in the X-15 exceeded the 50-mile (264,000 feet) altitude required for astronaut rating.NASA

Former NASA astronaut Joe Engle poses in front of an X-15 plane in this Dec. 2, 1965, photo. On June 29, 1965, Engle flew the X-15 to 280,600 feet, becoming the youngest U.S. pilot to qualify as an astronaut.

The Kansas native flew the X-15 for the U.S. Air Force 16 times from 1963 to 1965. Three times Engle flew an X-15 higher than 50 miles (the altitude required for astronaut rating), officially qualifying him for Air Force astronaut wings and providing him a brief moment for sightseeing at the edge of space.

“You could glance out and see the blackness of space above and the extremely bright Earth below. The horizon had the same bands of color you see from the shuttle, with black on top, then purple to deep indigo, then blues and whites,” he said.

Image credit: NASA

In 1963, Captain Engle was assigned as one of two Air Force test pilots to fly the X-15 Research Rocket aircraft. In 1965, he flew the X-15 to an altitude of 280,600 feet, and became the youngest pilot ever to qualify as an astronaut. Three of his sixteen flights in the X-15 exceeded the 50-mile (264,000 feet) altitude required for astronaut rating.NASA

Former NASA astronaut Joe Engle poses in front of an X-15 plane in this Dec. 2, 1965, photo. On June 29, 1965, Engle flew the X-15 to 280,600 feet, becoming the youngest U.S. pilot to qualify as an astronaut.

The Kansas native flew the X-15 for the U.S. Air Force 16 times from 1963 to 1965. Three times Engle flew an X-15 higher than 50 miles (the altitude required for astronaut rating), officially qualifying him for Air Force astronaut wings and providing him a brief moment for sightseeing at the edge of space.

“You could glance out and see the blackness of space above and the extremely bright Earth below. The horizon had the same bands of color you see from the shuttle, with black on top, then purple to deep indigo, then blues and whites,” he said.

Image credit: NASA

With the help of powerful computers, researchers discovered a four-sided shape that naturally rests on one side, and built a real-life version from carbon fibre and tungsten

With the help of powerful computers, researchers discovered a four-sided shape that naturally rests on one side, and built a real-life version from carbon fibre and tungsten

Large sea anchors could be used to drag water under a bold plan to keep the Atlantic Meridional Overturning Circulation moving – but some experts are sceptical

Large sea anchors could be used to drag water under a bold plan to keep the Atlantic Meridional Overturning Circulation moving – but some experts are sceptical

Astrophysics Science Video Producer – Goddard Space Flight Center

Growing up in Detroit with a camera in her hand, Sophia Roberts — now an award-winning astrophysics science video producer—never imagined that one day her path would wind through clean rooms, vacuum chambers, and even a beryllium mine. But framing the final frontier sometimes requires traveling through some of Earth’s less-explored corners.

Sophia Roberts is an astrophysics Science video producer at NASA’s Goddard Space Flight Center in Greenbelt, Md. She films space hardware assembly and explains complicated topics, weaving science and art together.Credit: Courtesy of Sophia Roberts

Sophia received her first camera from her father, a photography enthusiast, when she was just five or six years old. “I’ve basically been snapping away ever since!” she says. 

With a natural curiosity and enthusiasm for science, Sophia pursued a degree in biology at Oberlin College in Ohio. There, she discovered that she could blend her two passions.

“I often lingered in lab sessions, not to finish an experiment but to photograph it,” Sophia says. “I had an epiphany at the beginning of class one day, which always opened with clips from BBC nature documentaries. I decided right then that I would be one of the people who make those videos one day.”

Part of Sophia’s role currently involves documenting NASA’s Nancy Grace Roman Space Telescope, which is taking shape and being tested at NASA Goddard. She captured a cosmic selfie while photographing the telescope’s primary mirror, which was designed and built by L3Harris Technologies in Rochester, New York, before it was integrated with other components.Credit: NASA/Sophia Roberts

She initially thought that meant wildlife filmmaking—perched in a blind on a mountainside, waiting hours for an animal to appear. That dream led her to Montana State University, where she learned to blend scientific rigor with visual storytelling through their science and natural history filmmaking master’s program.

While completing her degree, Sophia worked as a traveling presenter for the Montana Space Grant Consortium. “I was mainly giving presentations about NASA missions and showing kids beautiful images of space,” she says. “That was my first true introduction to NASA. I loved being able to watch the children’s eyes light up when they saw what’s out there in space.”

Sophia then completed an internship at the Smithsonian’s National Museum of Natural History while completing her thesis. Once she graduated, she landed a year-long fellowship at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, as an Earth science news fellow. In this role, she focused on packaging up stories through satellite imagery and explanations. 

Sophia holds a Webby award she, Mike McClare (left), and Michael Starobin (right) won for their broadcasts of the James Webb Space Telescope’s launch, deployment, and first images.Credit: Copyright James Hartley, used with permission

She leaned into her videography skills in her next role, as part of NASA’s James Webb Space Telescope team. 

“Webb is one of my great loves in life,” she says. “I learned to negotiate with engineers for the perfect shot, navigate NASA’s protocols, and work with mission partners. I only spent five years on Webb, but it feels like it was half my life. Still—it was everything.”

That mission took her to some unforgettable places, like a mine in Delta, Utah, where raw material for Webb’s mirrors was unearthed. “It was this giant, spiral pit where they were mining beryllium at just 0.02% concentration,” Sophia says. The process was as otherworldly as the location.

In 2021, Sophia traveled to Delta, Utah to capture behind-the-scenes footage of raw material for the James Webb Space Telescope’s mirrors being unearthed. In this gif, a drone captures an aerial view of the site.Credit: Copyright Scott Rogers, used with permission

She also documented thermal vacuum testing at NASA’s Johnson Space Center in Houston in a giant pill-shaped chamber with a 40-foot round door. “I had to take confined space training to crawl around in the area underneath the chamber,” she says. “It felt like spelunking.”

Once Webb launched, Sophia pivoted to covering many of NASA’s smaller astrophysics missions along with the upcoming Nancy Grace Roman Space Telescope. These days, she can often be found gowned up in a “bunny suit” in the largest clean room at Goddard to document space telescope assembly, or in a studio recording science explanations. 

Sophia stands in the largest clean room at Goddard, where she documents space hardware coming together. Credit: NASA/Chris Gunn

“I love capturing the visual stories and helping fill in the gaps to help people understand NASA research,” Sophia says. “I try to focus on the things that will get people excited about the science so they’ll stop scrolling to find out more.”

For Sophia, the process is often as exhilarating as the result. “I love venturing out to remote places where science is being done,” she says. “I’d love to film a balloon launch in Antarctica someday!”

Jacob Pinter (left), host of NASA’s Curious Universe Podcast, leads a discussion with Sophia Roberts (center), a NASA video producer who documented the Webb project, and Paul Geithner (right), former deputy project manager for NASA’s James Webb Space Telescope, following a screening of the new NASA+ documentary “Cosmic Dawn: The Untold Story of the James Webb Space Telescope,” Wednesday, June 11, 2025, at the Greenbelt Cinema in Greenbelt, Md. Featuring never-before-seen footage, Cosmic Dawn offers an unprecedented glimpse into Webb’s assembly, testing, and launch. Credit: NASA/Joel Kowsky

To others who dream of pursuing a similar career, Sophia recommends diving in headfirst. “With cameras readily available and free online platforms, it’s never been easier to get into the media,” she says. “You just have to be careful to research your topic and sources, making sure you really know what you’re sharing and understand that science is always evolving as we learn more.” And Sophia emphasizes how important storytelling is for conveying information, especially when it’s as complex as astrophysics. “Studying science is wonderful, but I also think helping people visualize it is magical.” 

By Ashley Balzer
NASA’s Goddard Space Flight Center in Greenbelt, Md.

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Details Last Updated Jun 30, 2025 EditorAshley BalzerContactAshley Balzerashley.m.balzer@nasa.govLocationGoddard Space Flight Center Related Terms

• People of NASA
• James Webb Space Telescope (JWST)
• Nancy Grace Roman Space Telescope
• People of Goddard

Astrophysics Science Video Producer – Goddard Space Flight Center

Growing up in Detroit with a camera in her hand, Sophia Roberts — now an award-winning astrophysics science video producer—never imagined that one day her path would wind through clean rooms, vacuum chambers, and even a beryllium mine. But framing the final frontier sometimes requires traveling through some of Earth’s less-explored corners.

Sophia Roberts is an astrophysics Science video producer at NASA’s Goddard Space Flight Center in Greenbelt, Md. She films space hardware assembly and explains complicated topics, weaving science and art together.Credit: Courtesy of Sophia Roberts

Sophia received her first camera from her father, a photography enthusiast, when she was just five or six years old. “I’ve basically been snapping away ever since!” she says. 

With a natural curiosity and enthusiasm for science, Sophia pursued a degree in biology at Oberlin College in Ohio. There, she discovered that she could blend her two passions.

“I often lingered in lab sessions, not to finish an experiment but to photograph it,” Sophia says. “I had an epiphany at the beginning of class one day, which always opened with clips from BBC nature documentaries. I decided right then that I would be one of the people who make those videos one day.”

Part of Sophia’s role currently involves documenting NASA’s Nancy Grace Roman Space Telescope, which is taking shape and being tested at NASA Goddard. She captured a cosmic selfie while photographing the telescope’s primary mirror, which was designed and built by L3Harris Technologies in Rochester, New York, before it was integrated with other components.Credit: NASA/Sophia Roberts

She initially thought that meant wildlife filmmaking—perched in a blind on a mountainside, waiting hours for an animal to appear. That dream led her to Montana State University, where she learned to blend scientific rigor with visual storytelling through their science and natural history filmmaking master’s program.

While completing her degree, Sophia worked as a traveling presenter for the Montana Space Grant Consortium. “I was mainly giving presentations about NASA missions and showing kids beautiful images of space,” she says. “That was my first true introduction to NASA. I loved being able to watch the children’s eyes light up when they saw what’s out there in space.”

Sophia then completed an internship at the Smithsonian’s National Museum of Natural History while completing her thesis. Once she graduated, she landed a year-long fellowship at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, as an Earth science news fellow. In this role, she focused on packaging up stories through satellite imagery and explanations. 

Sophia holds a Webby award she, Mike McClare (left), and Michael Starobin (right) won for their broadcasts of the James Webb Space Telescope’s launch, deployment, and first images.Credit: James Hartley

She leaned into her videography skills in her next role, as part of NASA’s James Webb Space Telescope team. 

“Webb is one of my great loves in life,” she says. “I learned to negotiate with engineers for the perfect shot, navigate NASA’s protocols, and work with mission partners. I only spent five years on Webb, but it feels like it was half my life. Still—it was everything.”

That mission took her to some unforgettable places, like a mine in Delta, Utah, where raw material for Webb’s mirrors was unearthed. “It was this giant, spiral pit where they were mining beryllium at just 0.02% concentration,” Sophia says. The process was as otherworldly as the location.

In 2021, Sophia traveled to Delta, Utah to capture behind-the-scenes footage of raw material for the James Webb Space Telescope’s mirrors being unearthed. In this gif, a drone captures an aerial view of the site.Credit: Scott Rogers

She also documented thermal vacuum testing at NASA’s Johnson Space Center in Houston in a giant pill-shaped chamber with a 40-foot round door. “I had to take confined space training to crawl around in the area underneath the chamber,” she says. “It felt like spelunking.”

Once Webb launched, Sophia pivoted to covering many of NASA’s smaller astrophysics missions along with the upcoming Nancy Grace Roman Space Telescope. These days, she can often be found gowned up in a “bunny suit” in the largest clean room at Goddard to document space telescope assembly, or in a studio recording science explanations. 

Sophia stands in the largest clean room at Goddard, where she documents space hardware coming together. Credit: NASA/Chris Gunn

“I love capturing the visual stories and helping fill in the gaps to help people understand NASA research,” Sophia says. “I try to focus on the things that will get people excited about the science so they’ll stop scrolling to find out more.”

For Sophia, the process is often as exhilarating as the result. “I love venturing out to remote places where science is being done,” she says. “I’d love to film a balloon launch in Antarctica someday!”

Jacob Pinter (left), host of NASA’s Curious Universe Podcast, leads a discussion with Sophia Roberts (center), a NASA video producer who documented the Webb project, and Paul Geithner (right), former deputy project manager for NASA’s James Webb Space Telescope, following a screening of the new NASA+ documentary “Cosmic Dawn: The Untold Story of the James Webb Space Telescope,” Wednesday, June 11, 2025, at the Greenbelt Cinema in Greenbelt, Md. Featuring never-before-seen footage, Cosmic Dawn offers an unprecedented glimpse into Webb’s assembly, testing, and launch. Credit: NASA/Joel Kowsky

To others who dream of pursuing a similar career, Sophia recommends diving in headfirst. “With cameras readily available and free online platforms, it’s never been easier to get into the media,” she says. “You just have to be careful to research your topic and sources, making sure you really know what you’re sharing and understand that science is always evolving as we learn more.” And Sophia emphasizes how important storytelling is for conveying information, especially when it’s as complex as astrophysics. “Studying science is wonderful, but I also think helping people visualize it is magical.” 

By Ashley Balzer
NASA’s Goddard Space Flight Center in Greenbelt, Md.

Share

Details Last Updated Jun 27, 2025 EditorAshley BalzerContactAshley Balzerashley.m.balzer@nasa.govLocationGoddard Space Flight Center Related Terms

• People of NASA
• James Webb Space Telescope (JWST)
• Nancy Grace Roman Space Telescope
• People of Goddard

A certain species of sea slug steals chloroplasts from algae and houses its contraband in special organelles that it can raid for food in times of need