NASA’s Artemis III: First Human Mission to the Lunar South Pole

SpaceX Starship Human Lander

Illustration of SpaceX Starship human lander design that will carry the first NASA astronauts to the surface of the Moon under the Artemis program. Credit: SpaceX

Humans have always been drawn to explore, discover, and learn as much as we can about the world—and worlds—around us. This isn’t always easy, but it’s in our nature. For the benefit of all humanity, NASA and its partners will land the first woman and first person of color on the surface of the Moon with Artemis.

Following two Artemis test missions, Artemis III, currently planned for 2025, will mark humanity’s first return to the lunar surface in more than 50 years. NASA will make history by sending the first humans to explore the region near the lunar South Pole.

NASA Artemis I Flight Test Launch

NASA’s Space Launch System rocket carrying the Orion spacecraft launches on the Artemis I flight test, Wednesday, November 16, 2022, from Launch Complex 39B at NASA’s Kennedy Space Center in Florida. NASA’s Artemis I mission is the first integrated flight test of the agency’s deep space exploration systems: the Orion spacecraft, Space Launch System (SLS) rocket, and ground systems. SLS and Orion launched at 1:47 a.m. ET from Launch Pad 39B at the Kennedy Space Center. Credit: NASA/Bill Ingalls

On the way

NASA’s Orion spacecraft will be the crew’s ride to and from Earth and into and out of lunar orbit. Orion is the only spacecraft capable of returning crews to Earth at lunar reentry velocities. On the successful Artemis I mission, Orion’s uniquely designed heat shield was recently tested under these extreme reentry conditions. Four astronauts will depart from Launch Pad 39B at Kennedy Space Center in Florida atop the Space Launch System (SLS), the only rocket powerful enough to send Orion, its crew, and their supplies to the Moon in a single launch. The crew will be selected from among the most diverse astronaut corps in history, each equipped with unique skills and intensively trained.

First the crew will launch to Earth orbit where they will perform systems checks and solar panel adjustments on Orion. Then, a powerful push from SLS’s interim cryogenic propulsion stage will help Orion perform a translunar injection maneuver, setting its course to the Moon.

For several days, the crew will travel toward the Moon and perform corrective engine burns to intercept the Moon’s gravitational field. At the right time and location, Orion will perform a series of two engine burns to place the spacecraft in a lunar Near-Rectilinear Halo Orbit (NRHO). From hundreds of potential orbits, NASA selected NRHO to achieve long-term Artemis goals. NRHO will provide near-constant communications with Earth and access to sites all over the Moon. Because it is gravitationally balanced between Earth and the Moon, this orbit will maximize fuel efficiency. On future missions, NASA and its partners will assemble the Gateway lunar space station in NRHO to serve as a hub for Artemis missions.

Gateway Habitation and Logistics Outpost

Illustration showing a close-up of the Habitation and Logistics Outpost (HALO), one of the elements of Gateway. Credit: NASA

NASA has selected SpaceX to provide the human landing system that will transport Artemis III astronauts from Orion in lunar orbit to the surface of the Moon and back again. SpaceX plans to use a unique concept of operations to increase the overall efficiency of their lander. After a series of tests, SpaceX will fly at least one uncrewed demo mission that lands Starship on the lunar surface. When Starship has met all of NASA’s requirements and high standards for crew safety, it will be ready for its first Artemis mission.

Before the crew launch, SpaceX will launch a storage depot to Earth orbit. A series of reusable tankers will carry propellant to the storage depot to fuel the human landing system. The uncrewed Starship human landing system will then launch to Earth orbit and rendezvous with the storage depot to fill its tanks before executing a translunar injection engine burn and traveling approximately six days to NRHO where it will await the Artemis III crew.

When both spacecraft have arrived in NRHO, Orion will dock with the Starship human landing system in preparation for the first lunar surface expedition of the 21st century. Once the crew and their supplies are ready, two astronauts will board Starship and two will remain in Orion. Orion will undock and back away from Starship to remain in NRHO for roughly one orbit around the Moon, lasting about 6.5 days. This will match the length of the surface expedition, so as Orion completes its orbit, the two person surface crew will finish their work on the surface in time to launch back up to meet the spacecraft.

NASA has its sights set on locations around the South Pole for the Artemis era of human lunar exploration. Extreme, contrasting conditions make it a challenging location for Earthlings to land, live, and work, but the region’s unique characteristics hold promise for unprecedented deep space scientific discoveries. Using advanced technology including autonomous systems, the crew inside of Starship will land at a carefully selected site within a 100-meter radius.

On the Moon

After touchdown, the surface crew’s first task will be to ensure all systems are ready for their lunar surface stay. Then they will rest, eat, and recharge for the first full day of the expedition.

During their time on the Moon, the astronauts will do scientific work inside Starship and conduct a series of moonwalks, exiting Starship to explore the surface. The astronauts will don advanced spacesuits, exit through an airlock, and descend on Starship’s elevator. NASA has selected Axiom Space to provide the Artemis III surface suits and spacewalk systems. These suits will give the astronauts increased range of motion and flexibility to explore more of the landscape than on previous lunar missions.

Apollo 12 Lunar Surface Station 10 and Sample 381 Rock Panorama

Panorama view of Apollo 16 lunar surface photos of the Station 10 and Sample 381 Rock taken during the second moonwalk of the mission. Credit: NASA

During their moonwalks, the astronauts will take pictures and video, survey geology, retrieve samples, and collect other data to meet specific scientific objectives. The view from the lunar South Pole region will look very different from the photos taken on Apollo missions (such as the one above) in the Moon’s equatorial region. The Sun will hover just above the horizon, casting long, dark shadows across the terrain, which the crew will explore using headlamps and navigational tools. The information and materials collected by Artemis III astronauts will increase our understanding of the mysterious South Pole region, the Moon, and our solar system.

Mission control teams on the ground will be in contact with the crew as they relay what they see, hear, and feel. Through mission coverage and the ability to send high-quality images and video to the ground with advanced communication technology, they will be sharing a unique new human experience with the world.

Artemis Flight Day 25 Orion Earth

On flight day 25 of the Artemis I mission, Orion captured this photo of the Earth from a camera mounted on one of its solar arrays. Credit: NASA

On the journey home

When their surface expedition is complete, the two astronauts will lift off the surface of the Moon and head back to NRHO in Starship to reunite with their crewmates in Orion. After docking, the crew will spend up to five days in orbit, transferring samples between the vehicles and preparing for the journey back to Earth.

When they reach the optimal NRHO departure point, with all four astronauts back in Orion, they will undock and ignite Orion’s engines, slinging the spacecraft past the Moon, and allowing it to coast toward Earth. The crew will travel about 24,855 miles (about 40,000 kilometers) per hour during reentry into Earth’s atmosphere. Assisted by 11 parachutes, the spacecraft will splash down in the Pacific Ocean where it and the crew will be retrieved with support from the U.S. Coast Guard and U.S. Navy.

Artemis III will be one of the most complex undertakings of engineering and human ingenuity in the history of deep space exploration to date. The astronauts’ observations, samples, and data collected will expand our understanding of our solar system and home planet, while inspiring the next generation.

This mission will usher in a future in which humans consistently access the Moon, and human planetary exploration missions are within reach. Each Artemis mission will increase our knowledge, refine our operations, and prove our technology as we prepare for the first human mission to Mars.

Artemis III Mission Map

Artemis III Mission Map

Artemis III will be humanity’s return to the lunar surface and NASA will make history by sending the first humans to the lunar South Pole region. Credit: NASA

7 Comments on "NASA’s Artemis III: First Human Mission to the Lunar South Pole"

  1. I may as well ask, does this thing have plans for a weapon on board for self-protection?

  2. @bhakta_joe
    The Lunar South Pole is a small goldylocks zone with moderate temperatures, caves, ice and maybe even non-frozen water. So who knows, something may be lurking there.

  3. Great rundown of the mission! What happens to starship after Orion’s departure? Is it there to very the next batch of astronauts to the moon and back, after refueling somehow?

  4. Michael Delaney | January 24, 2023 at 6:14 pm | Reply

    Let’s quit pretending, Jack@sses. Space X could do THE WHOLE TRIP BY ITSELF, with ALL WHITE MALES! Geez! All the rest of this description of the trip is politically correct BULLSH!T! No need for the ‘Space Launch System”, no need for “non-white, non-male” astronauts, that’s all complete idi*t nonsense!

  5. Greg Marsh, exposure scientist. | January 25, 2023 at 6:19 am | Reply

    A complete inventory of all spectrometers on board and what they’re going to do.

  6. Shaun'lee Dreyfuss | January 25, 2023 at 7:18 am | Reply

    Fantastic info keep the hood work up thank you

  7. What is it that robots couldn’t do up there at a fraction of the cost and none of the risk of sending humans?

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