Artemis Archives

February 6, 2024February 6, 2024 by Mark Thompson

NASA Continues Testing its New Lunar Spacesuits

A spacesuit tester exploring how manoeuvrable it is and how easy pieces of rock can be picked up. — An Axiom Space engineer wearing the AxEMU (Axiom Extravehicular Mobility Unit) spacesuit kneels to collect simulated lunar samples using a scoop during testing at NASA’s Johnson Space Center. Axiom Space

NASA’s Artemis mission objective is among other things, to get human beings back to the Moon. Much of the attention of late has been focussed on the rocket technology to get the astronauts there but as we progress from Artemis I to Artemis II – which aims to take a crew around the Moon and back before Artemis III lands them on the lunar surface – attention is shifting on the spacesuits the crew will wear. The new suits, built by Axiom Space are designed to provide the mobility and protection required on the surface and now, NASA has received samples and is testing them in simulated space environments.

February 5, 2024February 5, 2024 by Carolyn Collins Petersen

NASA is One Step Closer to Deploying Fission Reactors on the Moon

An artist's concept of possible nuclear fission reactors on the Moon. Credit: NASA

What’s the most important thing you need to live and work on the Moon? Power. For NASA’s upcoming Artemis program, getting power to lunar bases is a top priority. That’s why the agency created its Fission Surface Power Project. The idea is to develop concepts for a small nuclear fission reactor to generate electricity on the lunar surface.

January 29, 2024January 29, 2024 by Mark Thompson

This is How Astronauts Would Escape from the Artemis II Launch Pad

Space exploration is a tricky and at times, dangerous business. The safety of the crews is of paramount importance and escape technology is always factored into spacecraft design. Whilst Artemis I did not require such provisions when it launched Artemis II with astronauts on board is being prepared with a ski-lift style escape system to take them far away from the launch pad.

January 26, 2024January 26, 2024 by Carolyn Collins Petersen

The Moon is Still Shrinking, Explaining Why it Still Has Landslides

Artemis mission landing locations near the South Pole of the Moon. Blue boxes indicate selected landing spots, while small red marks are locations of scarps caused by moonquakes. Credit: NASA/ LRO/ LROC/ASU/ Smithsonian Institution

Although our Moon formed 4.5 billion years ago, it’s still evolving. The interior continues to cool and its orbit is slowly changing. As a result, the Moon has lost 150 feet of its circumference. That shrinkage contributes to near-constant moonquakes, and those trigger landslides and other surface changes. The Moon is currently uninhabited, but all that activity threatens future Artemis landing sites and missions at the South Pole.

January 10, 2024January 10, 2024 by Mark Thompson

NASA is Pushing Back its Moon Landings to 2026

I wasn’t around for the Apollo program that took human beings to the Moon. I would have love to have seen it all unfold though. With NASAs Artemis program the opportunity will soon be with us again to watch humans set foot on another world, just not for the first time. Alas NASA announced on Tuesday that the Moon landings which form part of Artemis 3, have been pushed back one year to 2026.

December 12, 2023December 13, 2023 by Matt Williams

We've Entered a New Era: The Lunar Anthropocene

Humans on the Moon. Image credit: Envato Elements

For almost half a century, the term “Anthropocene” has been informally used to describe the current geological epoch. The term acknowledges how human agency has become the most significant factor when it comes to changes in Earth’s geology, landscape, ecosystems, and climate. According to a new study by a team of geologists and anthropologists, this same term should be extended to the Moon in recognition of humanity’s exploration (starting in the mid-20th century) and the growing impact our activities will have on the Moon’s geology and the landscape in the near future.

November 21, 2023November 21, 2023 by Nancy Atkinson

Simulating How Moon Landings Will Kick Up Dust

A look at the Apollo 12 landing site. Astronaut Alan Bean is shown, working near the Modular Equipment Stowage Assembly (MESA) on the Apollo 12 Lunar Module (LM) during the mission's first extravehicular activity, (EVA) on Nov. 19, 1969. Credit: NASA.

When spacecraft land on the Moon, their exhaust strikes the powdery regolith on the lunar surface. The Moon has low gravity and no atmosphere, so the dust is thrown up in a huge plume. The dust cloud could possibly interfere with the navigation and science instruments or cause visual obstructions. Additionally, the dust could even be propelled into orbit, risking other spacecraft nearby.

In working to better understand the impact future landers might have on the lunar surface, NASA has developed a new supercomputer simulation. They used it to predict how Apollo 12’s lunar lander exhaust would interact with regolith, then compared this to the actual results of the landing.

October 30, 2023November 9, 2023 by Matt Williams

Balloon Animals and Bouncy Castles on the Moon. The Case for Inflatable Habitats

Artist’s Conceptual Image of Inflatable Applications on the Lunar Surface. Credit: AMA Advanced Concepts Lab

Every year, NASA’s Breakthrough, Innovative, and Game-Changing (BIG) Idea Challenge invites student innovators to build and demonstrate concepts that can benefit future human missions to the Moon and beyond. This year’s theme is “Inflatable Systems for Lunar Operations,” which could greatly reduce the mass and stowed volume of payloads sent to the Moon. This is critical for the Artemis Program as it returns astronauts to the Moon for the first time since the Apollo Era over fifty years ago. It will also reduce the costs of sending payloads to the Moon, Mars, and other deep-space destinations.

October 7, 2023October 7, 2023 by Nancy Atkinson

This Moon Rover Wheel Could be 3D Printed on the Moon

NASA mechanical design engineer Richard Hagen, left, and ORNL researcher Michael Borish inspect a lunar rover wheel prototype that was 3D printed at the Manufacturing Demonstration Facility. Credit: Carlos Jones/ORNL, U.S. Dept. of Energy

When you think about sending missions to the Moon, every single gram counts on launch day. Therefore, it makes sense to live off the land when you arrive with in-situ resource utilization. For example, what if you could fly a rover without wheels and 3D print them out of lunar regolith when you get there?

It just might happen.

Researchers used a 3D printer to build the same design for a wheel that will be part of the upcoming NASA VIPER rover. It was done using additive manufacturing (another word for 3D printing), melting metal powder and laying down and bonding a large number of successive thin layers of materials into the designed shape.

October 3, 2023October 4, 2023 by Nancy Atkinson

We Don't Know Enough About the Biomedical Challenges of Deep Space Exploration

Artist's impression of astronauts on the lunar surface, as part of the Artemis Program. Credit: NASA

Although humans have flown to space for decades, the missions have primarily been in low-Earth orbit, with just a handful of journeys to the Moon. Future missions with the upcoming Artemis program aim to have humans living and working on the Moon, with the hopes of one day sending humans to Mars.

However, the environments of the Moon and deep space present additional health challenges to astronauts over low-Earth orbit (LEO), such as higher radiation, long-term exposure to reduced gravity and additional acceleration and deceleration forces. A new paper looks at the future of biomedicine in space, with a sobering takeaway: We currently don’t know enough about the biomedical challenges of exploring deep space to have an adequate plan to ensure astronaut health and safety for the Artemis program.