NASA Heat Shield Technology Enables Space Industry Growth

Using cutting-edge material licensed from NASA, a protective heat shield manufactured in-house by Varda Space Industries for the first time enabled one of its capsules to blaze through Earth’s atmosphere on Thursday, marking a significant milestone for the agency and America’s space industry. The material, known as C-PICA (Conformal Phenolic Impregnated Carbon Ablator), provides a stronger, less expensive, and more efficient thermal protection coating to capsules, allowing them – and their valuable contents – to return to Earth safely.  

Varda’s W-5 capsule launched to low Earth orbit on Nov. 28, 2025, making it the latest spacecraft from the company to carry science and technology experiments from industry and government agencies into orbit.

Heat shields allow us to bring the benefits of work done in space, including medical research, technology development, and scientific discovery, down to Earth to improve our everyday lives.

Greg Stover

Associate Administrator (Acting), Space Technology Mission Directorate

“Heat shields allow us to bring the benefits of work done in space, including medical research, technology development, and scientific discovery, down to Earth to improve our everyday lives,” said Greg Stover, associate administrator of NASA’s Space Technology Mission Directorate at Headquarters in Washington. “By licensing heat shield material to a commercial aerospace company, NASA is fostering their ability to manufacture it independently, helping make entry system materials more readily available across the space sector.” 

Developed at NASA’s Ames Research Center in California’s Silicon Valley, C-PICA sets the standard for heat shields, reflecting the decades of expertise that NASA brings to designing, developing, and testing innovative thermal protection materials.  

The transfer of NASA’s C-PICA to Varda’s has far-reaching benefits, as the company uses its W-series capsules as a platform to process pharmaceuticals and conduct other microgravity research. 

This flight shows what’s possible when NASA and our commercial partners collaborate closely to invest in learning together.

Danielle McCulloch

NASA’s Flight Opportunities Program Executive

“This flight shows what’s possible when NASA and our commercial partners collaborate closely to invest in learning together,” said Danielle McCulloch, program executive of NASA’s Flight Opportunities program at NASA’s Armstrong Flight Research Center in Edwards, California. “Not only does it advance the U.S. space industry, but it also takes other industries — like pharmaceuticals — to the next level, with benefits that ripple out across society.”  

The successful return of Varda’s W-5 capsule is the latest step in a productive ongoing collaboration. NASA not only licensed the technology to Varda but also selected Varda to receive a 2023 Tipping Point award to begin C-PICA production and flight testing through the agency’s Flight Opportunities program. NASA also provided technical support as the company set up its own manufacturing processes and assisted with gathering flight data. This work belongs to the growing sector of in-space manufacturing that depends in part on effective heat shields to safely return products and experiments to Earth. 

A NASA Technology Transfer Success  

Varda was the first company to license NASA’s C-PICA heat shield material, which has since been licensed to several other companies. The patented technology is still available, and NASA is working with other commercial space companies interested in the material. By licensing the technology as well as transferring the manufacturing expertise, NASA is helping increase the availability of C-PICA across the space sector, opening the door to greater growth of in-space manufacturing. 

Learn more about this flight test: https://go.nasa.gov/446Lqg4

By Tara Kennon
NASA’s Armstrong Flight Research Center, Edwards, Ca.

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NASA Awards Help Inspire Future Innovators Through STEM Engagement

NASA has awarded more than $5 million to 29 institutions nationwide to expand and strengthen science, technology, engineering, and math (STEM) learning beyond the classroom. The awards are designed to help build skills that lead directly to STEM careers. These organizations collaborate with libraries, after-school programs, and youth-serving groups to provide sustainable learning opportunities that inspire future innovators.

“NASA’s TEAM II awards enable us to reach students where they are, be it a library, after-school program, or museum,” said Elaine Ho, associate administrator of the Office of STEM Engagement at NASA Headquarters in Washington. “By extending NASA’s discoveries to students everywhere we can build a powerful network of collaborators who are primed to deliver resources and programming that can transform outcomes for the next generation of explorers.”

The institutions and their proposed projects were selected for NASA’s STEM Innovator, as well as the Community Anchor Awards. Both awards are part of the agency’s TEAMS Engaging Affiliated Museums and Informal Institutions (TEAM II) program, which engages formal and informal educators, students, and communities in NASA’s missions as the nation enters a Golden Age of innovation and exploration.

Awardees for STEM Innovators act as regional hubs, building partnerships and networks to advance innovative informal STEM education practices. NASA selected 18 institutions to receive nearly $4.5 million in cooperative agreements to help deliver NASA STEM experiences to broad regional audiences. The selected institutions are:

STEM Innovator Awards

• Advanced Methods in Innovation, Inc., Youngstown, Ohio
• The American Museum of Natural History, New York
• Children’s Museum of Indianapolis, Inc., Indiana
• Discovery Center of Springfield, Inc., Springfield, Missouri
• Discovery Place, Inc., Charlotte, North Carolina
• Fab Lab, El Paso, Texas
• Hawaii Science and Technology Museum, Hilo, Hawaii
• Liberty Science Center, Inc., Jersey City, New Jersey
• Montshire Museum of Science, Inc., Norwich, Vermont
• Mount Washington Observatory, North Conway, New Hampshire
• National Space Grant Foundation, Inc., San Juan, Puerto Rico
• Orlando Science Center, Inc., Florida
• The Regents of The University of California, Berkeley, California
• Space for Teachers, Inc., Kenosha, Wisconsin
• Space Science Institute, Boulder, Colorado
• Texas Christian University, Fort Worth, Texas
• Universities Space Research Association, Washington
• University of Montana, Missoula, Montana

Community Anchor awardees serve as a local resource, with projects created to introduce NASA content and opportunities to varied audiences. The agency selected 11 institutions to receive more than $547,000 in grants to help bring their projects to life and create new connections between their communities and NASA. The selected institutions are:

Community Anchor Awards

• Children’s Museum of Idaho, Inc., Meridian, Idaho
• Connecticut Science Center, Inc., Hartford, Connecticut
• The Da Vinci Discovery Center of Science and Technology, Inc., Allentown, Pennsylvania
• Exploration Place, Inc., Wichita, Kansas
• Girl Scouts of Eastern Massachusetts, Inc., Waltham, Massachusetts
• Hawaii Keiki Museum, Waikoloa, Hawaii
• Lykens Valley Children’s Museum, Elizabethville, Pennsylvania
• Memphis Museums, Inc., Tennessee
• National Space Science & Technology Institute, Colorado Springs, Colorado
• Sciencenter Discovery Museum, Ithaca, New York
• STEM Flights, Stephenson, Virginia

The awards are funded through the agency’s Next Generation STEM project, part of NASA’s Office of STEM Engagement, which creates innovative resources and hands-on experiences designed to ignite curiosity in STEM and help students discover pathways into the aerospace workforce.

For the latest NASA STEM events, activities, and news, visit:

https://stem.nasa.gov

-end-

Gerelle Dodson
Headquarters, Washington
202-358-1600
gerelle.q.dodson@nasa.gov

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Gerelle Q. Dodson

NASA-ISRO Radar Mission Peers Through Clouds to See Mississippi River Delta

A new image from the NISAR mission shows off the satellite’s ability to reveal details of Earth’s surfaces. The science team also released new sample data. 

A U.S.-Indian Earth satellite’s ability to see through clouds, revealing insights and characteristics of our planet’s surface, is on display in a colorful, newly released image showing the Mississippi River Delta region in southeastern Louisiana. 

Created with data collected by the NISAR (NASA-ISRO Synthetic Aperture Radar) satellite in late fall, the image shows the cities of New Orleans and Baton Rouge, the Mississippi River, Lake Pontchartrain, and a diversity of wetlands, farmland, forests, and communities. It also highlights the key difference between radar, which scans surfaces with microwaves, and technologies that sense visible light: Optical imagery from other instruments taken the same day showed the region largely obscured by clouds. 

This image comes as the NISAR project prepares to make thousands of mission data files available for download in late February. The mission also recently released a smaller set of sample files to help data users prepare to utilize the broader dataset. 

While the Earth-observing satellite went through checks to verify the health of all its systems after launching in July, the mission’s NASA science team — researchers and data scientists from a range of disciplines spread around the U.S. — pulled preliminary measurements from its L-band synthetic aperture radar (SAR) instrument to generate maps such as this one that demonstrate the instrument’s capabilities.  

Built by NASA’s Jet Propulsion Laboratory in Southern California, the L-band radar employs microwaves that, due to their 9-inch (24-centimeter) wavelength, can pass uninterrupted through clouds and image the surface below clearly.  

What’s revealed 

Captured Nov. 29, the image demonstrates how the L-band SAR can discern what type of land cover — low-lying vegetation, trees, and human structures — is present in each area. This capability is vital both for monitoring the gain and loss of forest and wetland ecosystems, as well as for tracking the progress of crops through growing seasons around the world. 

The colors seen here represent varying types of cover, which tend to reflect microwaves back to the satellite differently. Portions of New Orleans appear green, a sign that the radar’s signals may be scattering from buildings that are oriented at different angles relative to the satellite’s orbit. Parts of the city appear magenta where streets that run parallel to the satellite’s flight track cause the signals to bounce strongly and brightly off buildings and back to the instrument. 

The resolution of the image is fine enough to make clear, right of center, the Lake Pontchartrain Causeway — twin bridges that, at nearly 24 miles (39 kilometers) in length, make up the world’s longest continuous bridge over water. 

The bright green areas to the west of the Mississippi River, which snakes from Baton Rouge in the upper left to New Orleans in the lower right, are healthy forests. There, tree canopies and other vegetation caused NISAR’s microwaves to bounce in many directions before returning to the satellite. Meanwhile, the yellow-and-magenta-speckled hues of Maurepas Swamp, directly west of Lake Pontchartrain and the smaller Lake Maurepas, indicate that the tree populations in that wetland forest ecosystem have thinned.  

On either bank of the Mississippi, the image shows parcels of varying shapes, sizes, and cover. Darker areas suggest fallow farm plots, while bright magenta indicates that tall plants, such as crops, may be present. 

The data products created with NISAR’s L-band measurements will be downloadable at the website of the Alaska Satellite Facility Distributed Active Archive Center. The Fairbanks-based facility stores and distributes NASA’s SAR data.  

Insights from NISAR can protect communities by providing unique, actionable information to decision-makers in a diverse range of areas, including disaster response, infrastructure monitoring, and agricultural management. 

More about NISAR 

A joint mission developed by NASA and the Indian Space Research Organisation (ISRO), NISAR launched on July 30 from Satish Dhawan Space Centre on India’s southeastern coast. Managed by Caltech, JPL leads the U.S. component of the project and provided the satellite’s L-band SAR and antenna reflector. ISRO provided NISAR’s spacecraft bus and its S-band SAR, which operates at a wavelength of 4 inches (10 centimeters.) 

The NISAR satellite is the first to carry two SAR instruments at different wavelengths and will monitor Earth’s land and ice surfaces twice every 12 days, collecting data using the spacecraft’s giant drum-shaped reflector, which measures 39 feet (12 meters) wide — the largest radar antenna reflector NASA has ever sent into space. 

To learn more about NISAR, visit: 

https://science.nasa.gov/mission/nisar/

News Media Contacts

Andrew Wang / Andrew Good
Jet Propulsion Laboratory, Pasadena, Calif.
626-379-6874 / 818-393-2433
andrew.wang@jpl.nasa.gov / andrew.c.good@jpl.nasa.gov

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I Am Artemis: Doug Parkinson

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I Am Artemis: Doug Parkinson

Doug Parkinson’s face lights up as he starts telling his story, how someone from  Wisconsin now plays a part in the team that will help land the first Artemis astronauts on to the Moon.

Parkinson serves as NASA’s SLS (Space Launch System) rocket lead for Launch Integration and Mission Operations, guiding engineers responsible for monitoring the rocket during testing, pre-launch, and launch activities.

Following his father’s footsteps, Parkinson became a mechanical engineer, studying at the University of Alabama in Huntsville. He had planned on working in computer technologies or on cars in his future. Then the opportunity appeared to work with higher-powered engines.

“I came across an opportunity to work at the Propulsion Research Center at the university. I studied new propulsion technologies. That intrigued me because, as an undergrad, it was a chance to put into practical use what I was learning in the books and in theory,” said Parkinson. “It ended up being a lot of fun and very educational. It was in cutting edge technologies that really inspired me.”

Joining NASA at Marshall Space Flight Center in Huntsville, Alabama, in 1999, he began helping develop advanced liquid rocket engines, including the Fastrac and J-2X engines. The J-2X was an advanced development of the upper stage engine used on the Saturn V.

“In 2012, I moved to SLS. One of the things I learned in the propulsion area with all the engine testing was test operations. That translated well into my new role as operations lead for the stages element,” said Parkinson.

Now, he also serves as one of the SLS Engineering Support Center managers, helping oversee and train the SLS Engineering Support Team responsible for monitoring the rocket’s systems. The team operates at NASA Marshall and is critical to verifying the rocket is performing well.

Parkinson is the first person to hold the Launch Integration and Mission Operations leadership position in the SLS Program.

“I love all aspects of the operations. I like getting my hands dirty. I like seeing the erector set go together,” said Parkinson.

When the Artemis II astronauts fly by the Moon, soaring within just a few thousand miles of the lunar surface, they will do so having been launched on a rocket Parkinson helped develop.

I have goosebumps just thinking about it,” he said. “I’ll be on console for part of that time, listening to what they have to say. It’s amazing to think we’re going to go do that.

Doug Parkinson

Launch Integration and Mission Operations Lead for the SLS (Space Launch System) Program

“I have goosebumps just thinking about it,” he said. “I’ll be on console for part of that time, listening to what they have to say. It’s amazing to think we’re going to go do that.”

The SLS rocket will launch NASA’s Orion spacecraft to carry four astronauts around the Moon for scientific discovery, economic benefits, and to lay the groundwork for the first human mission to Mars.

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