HUNTSVILLE, Ala. (NASA PR) — NASA has completed the design certification review (DCR) for the Space Launch System Program (SLS) rocket ahead of the Artemis I mission to send the Orion spacecraft to the Moon. The review examined all the SLS systems, all test data, inspection reports, and analyses that support verification, to ensure every aspect of the rocket is technically mature and meets the requirements for SLS’s first flight on Artemis I.
TUCSON, Ariz. (University of Arizona PR) — Scientists thought asteroid Bennu’s surface would be like a sandy beach, abundant in fine sand and pebbles, which would have been perfect for collecting samples. Past telescope observations from Earth’s orbit had suggested the presence of large swaths of fine-grain material called fine regolith that’s smaller than a few centimeters.
KENNEDY SPACE CENTER, Fla. (NASA PR) — NASA has tested the functions of Lucy, the agency’s first spacecraft to study Jupiter’s Trojan asteroids, filled it with fuel, and is preparing to pack it into a capsule for launch Saturday, Oct. 16.
Named after characters in Greek mythology, these asteroids circle the Sun in two swarms, with one group leading ahead of Jupiter in its path, the other trailing behind it. Lucy will be the first spacecraft to visit these asteroids. By studying these asteroids up close, scientists hope to hone their theories on how our solar system’s planets formed 4.5 billion years ago and why they ended up in their current configuration.
WASHINGTON (NASA PR) — NASA has selected 10 proposals led by early-career employees across the agency for two-year projects that will support the development of new capabilities for deep space human exploration.
These proposals were selected under Project Polaris, a new initiative to support the NASA workforce in efforts to meet the challenges of sending humans to the Moon and Mars. Project Polaris seeks to fill high-priority capability gaps on deep space missions like those planned under Artemis and introduce new technologies into human exploration flight programs. The project also aims to create opportunities for early-career employees across NASA centers to gain experience building and testing flight hardware while developing technologies and reducing risk for future human exploration missions.
WASHINGTON (NASA PR) — NASA’s Chief Scientist Jim Green has announced that he will retire in early 2022 after more than 40 years of service at NASA.
“I feel tremendously proud about the activities I’ve done at NASA,” said Green. “In many ways, NASA is not a job. It’s a way of life. We’re always looking for ways to do the impossible. The fact that we continue to succeed and do those things is a tremendous excitement for everyone, and really is important not just for NASA, but for the nation.”
WASHINGTON (NASA PR) — NASA has selected five U.S. companies to help the agency enable a steady pace of crewed trips to the lunar surface under the agency’s Artemis program. These companies will make advancements toward sustainable human landing system concepts, conduct risk-reduction activities, and provide feedback on NASA’s requirements to cultivate industry capabilities for crewed lunar landing missions.
HUNTSVILLE, Ala. — NASA challenges intrepid student engineering and design teams to work like never before to support the U.S. space program. Registration is now open for U.S. student teams to take part in the next NASA Human Exploration Rover Challenge, set for April 28-30, 2022, at the U.S. Space & Rocket Center in Huntsville, Alabama.
The 28th edition of the annual event – one of NASA’s Artemis Student Challenges, managed by NASA’s Marshall Space Flight Center in Huntsville – will task high school, college, and university students around the world to design, build, test, and compete their lightweight, human-powered rovers on a course simulating lunar and Martian terrain, while completing mission-focused science tasks.
New concepts could expand human exploration of the deepest parts of the solar system faster than ever before.
EL SEGUNDO, Calif. (Aerospace Corporation PR) — Space exploration remains a herculean effort due to the immense challenges imposed by time and distance. While missions to near-Earth objects have been successfully accomplished using traditional means of propulsion, the outermost planets in our solar system are 2 to 3.7 billion miles from the Sun. Reaching them within any reasonable time frame requires propulsion systems that exceed the capabilities of conventional propulsion methods.
DENVER, Aug. 24, 2021 (Voyager Space PR) — Voyager Space (Voyager), a global leader in space exploration, today announced its subsidiary, Altius Space Machines, Inc.(Altius) was recently selected by Eta Space to provide a cryogenic coupler for liquid oxygen (LOX) transfer in support of its planned nine-month LOXSAT cryogenic fluid management mission.
Eta Space was selected by NASA to execute a flight demonstration of a complete cryogenic oxygen fluid management system. The system will fly as a dedicated payload on a Rocket Lab Electron launch vehicle and will collect critical cryogenic storage and transfer data in orbit for nine months. Eta Space will collaborate with NASA’s Marshall Space Flight Center in Huntsville, Alabama, NASA’s Glenn Research Center in Cleveland, and NASA’s Kennedy Space Center in Cape Canaveral, Florida.
JACKSONVILLE, Fla. (NASA PR) — The farther humans go into deep space, the more important it will be to generate products with local materials. Reducing Earth delivery requirements reduces overall mission cost and launch weight. It also allows for the construction of infrastructure using space-based resources, a practice called in-situ resource utilization (ISRU). NASA is making long term investments to advance ISRU technology across multiple areas, including regolith-based in-space manufacturing and construction.
HUNTSVILLE, Ala. (NASA PR) — As NASA prepares to go to the Moon with the Artemis program, in-situ resource utilization is paramount, and there is no hotter commodity than water. To that effect, 13 teams from across the United States have won a share of a $500,000 prize in a competition that asked for ideas for digging and hauling icy Moon “dirt” – or regolith.
NASA’s Break the Ice Lunar Challenge opened in November 2020, incentivizing new approaches for excavating resources astronauts will need during long-duration missions on the Moon. Water, one of the most important resources, is trapped in icy regolith at the Moon’s poles, inside permanently dark and cold craters.
NASA’s 14-year effort to build lunar suits is going to consume more than $1 billion and will deliver working products after the space agency’s goal of landing two astronauts at the moon south pole in 2024, according to a new audit from NASA’s Inspector General.
“NASA’s current schedule is to produce the first two flight-ready xEMUs by November 2024, but the Agency faces significant challenges in meeting this goal,” the report said. “This schedule includes approximately a 20-month delay in delivery for the planned design, verification, and testing suit, two qualification suits, an ISS Demo suit, and two lunar flight suits.
Three papers published today share new details on the crust, mantle, and molten core of the Red Planet.
PASADENA, Calif. (NASA PR) — Before NASA’s InSight spacecraft touched down on Mars in 2018, the rovers and orbiters studying the Red Planet concentrated on its surface. The stationary lander’s seismometer has changed that, revealing details about the planet’s deep interior for the first time.
Designed to improve navigation for robotic explorers and the operation of GPS satellites, the technology demonstration reports a significant milestone.
PASADENA, Calif. (NASA PR) — Spacecraft that venture beyond our Moon rely on communication with ground stations on Earth to figure out where they are and where they’re going. NASA’s Deep Space Atomic Clock is working toward giving those far-flung explorers more autonomy when navigating. In a new paper published today in the journal Nature, the mission reports progress in their work to improve the ability of space-based atomic clocks to measure time consistently over long periods.