Skip to main content

ASU to develop payloads for Blue Origin lunar transportation


man pointing to moon lander

|
May 09, 2019

Announced today in Washington, D.C., by Blue Origin, Arizona State University has signed a memorandum of understanding with Blue Origin to send payloads to the lunar surface.

Blue Origin, a privately funded aerospace manufacturer, envisions a future where millions of people live and work in space. As part of this vision, Blue Origin is engaged in developing infrastructure for the creation of human spaceflight capabilities.

“ASU and Blue Origin are united in the passion for a positive human space future, and in the goal of partnering universities and the private sector,” said ASU School of Earth and Space Exploration director, Lindy Elkins-Tanton, who also co-chairs ASU’s Interplanetary Initiative.

ASU will develop one or more payload experiments to be launched aboard Blue Origin’s Blue Moon, a flexible lander delivering a wide variety of small, medium and large payloads to the lunar surface.

"It's wonderful to be working so closely with our skilled, innovative and entrepreneurial colleagues at Blue Origin,” said School of Earth and Space Exploration professor Jim Bell, who is also the director of ASU’s Space Technology and Science (“NewSpace”) Initiative. “This collaboration will provide opportunities for our students to get hands-on experience with space experiments and systems and for our faculty to make significant advances in space science, engineering, and education.”

This Blue Origin-ASU memorandum of understanding follows last week’s successful launch of three ASU student-led payloads on Blue Origin’s New Shepard space vehicle, the first-ever student-designed and -built payloads to be launched into space and brought back to Earth. These payloads were funded by the Interplanetary Initiative, NewSpace and private donors Peter and Cathy Swan.

ASU, with experience in leading NASA missions and the capability of building space instruments on campus, has a long history of developing and building flight instruments for space and supporting the planetary and astronomy science investigations of their faculty.

ASU has developed a strong interdisciplinary faculty, incorporating astronomers, geologists, engineers, physicists, microbiologists, cell biologists, tissue engineers, immunologists, volcanologists and other researchers to create a superior research environment. The study of space, the planets and the origins of life involves expertise spread across many academic units including the School of Earth and Space Exploration, the School of Life Sciences, the Department of Physics, the Ira A. Fulton Schools of Engineering, the Herberger Institute for Design and the Arts, the School for the Future of Innovation in Society and the Center for Science and the Imagination.

Follow more of Lindy Elkins-Tanton's tweets @ltelkins.

Top photo: Jeff Bezos introduces the Blue Moon, a flexible lander that will deliver a variety of payloads to the moon. Photo by Lindy Elkins-Tanton

More Science and technology

 

Illustration of a semiconductor being put together

Advanced packaging the next big thing in semiconductors — and no, we're not talking about boxes

Microchips are hot. The tiny bits of silicon are integral to 21st-century life because they power the smartphones we rely on, the cars we drive and the advanced weaponry that is the backbone of…

Four people sitting around a computer screen

Securing the wireless spectrum

The number of devices using wireless communications networks for telephone calls, texting, data and more has grown from 336 million in 2013 to 523 million in 2022, according to data from U.S.…

Illustrations showing game icons including a young girl, sunglasses, a t-shirt, water bottle and more

New interactive game educates children on heat safety

Ask A Biologist, a long-running K–12 educational outreach effort by the School of Life Sciences at Arizona State University, has launched its latest interactive educational game, called "Beat the…