Artemis III
Assembly of the European Service Module for the planned mission
Names Exploration Mission-3 (EM-3)
Mission type Crewed demonstration flight
Operator NASA
Website nasa.gov/mission/artemis-iii
Mission duration ≈2 weeks (planned)[1]
Spacecraft properties
Spacecraft
  • Orion CM-004
  • ESM-3
  • Human Landing System (HLS) test article(s)
Manufacturer
  • Orion: Lockheed Martin
  • ESM: Airbus Defence and Space
  • HLS: Blue Origin and SpaceX
Crew
Crew size 4
Members
  • Randy Bresnik
  • Luca Parmitano
  • Frank Rubio
  • Andre Douglas
Start of mission
Launch date Late 2027 (planned)[2]
Rocket Space Launch System
Launch site Kennedy, LC-39B
End of mission
Landing site Pacific Ocean (planned)
Orbital parameters
Reference system Geocentric orbit
Regime Low Earth orbit
Altitude ≈230 nmi (430 km; 260 mi)
Inclination 33°

Mission wordmark

Official crew portrait, from left to right: Douglas, Parmitano, Bresnik, and Rubio
Artemis program
← Artemis II
Artemis IV →

Artemis III is an upcoming crewed spaceflight mission of the NASA-led Artemis program. Planned for 2027, the mission is designed as a crewed demonstration flight in low Earth orbit rather than a lunar landing. Four astronauts will launch aboard the Orion spacecraft on the Space Launch System (SLS) rocket from Kennedy Space Center in Florida.[3][4]

The mission will test rendezvous and docking operations between Orion and test versions of commercial Human Landing System spacecraft being developed by Blue Origin and SpaceX.[5] NASA describes Artemis III as a risk-reduction mission intended to support Artemis IV, which is planned as the first crewed lunar landing mission of the Artemis program.[6]

Mission overview

NASA describes the mission as one of the most complex human spaceflight missions it has ever attempted, involving three separate launches of the most powerful rockets in the world, and is intended to evaluate Orion systems, propulsion, communications, operational concepts for future lunar missions, and spacecraft interoperability through a series of rendezvous and docking demonstrations involving NASA and commercial vehicles.[4]

The mission would begin with the launch of a Blue Origin test vehicle capable of remaining in orbit for up to 90 days.[7] A crew of four astronauts would then launch aboard Orion on a SLS rocket from Kennedy Space Center Launch Complex 39B. Because the mission would remain in low Earth orbit rather than travel toward the Moon, the SLS will fly without an Interim Cryogenic Propulsion Stage and instead use a non-propulsive spacer with the same dimensions and interface points.[5][1] After separation, Orion's European Service Module would place the spacecraft into a circular orbit approximately 230 nautical miles (430 km; 260 mi) above Earth.[8]

Orion would rendezvous and dock with the Blue Origin vehicle, where the crew would evaluate its systems and conduct interface tests between the vehicle and the Axiom Extravehicular Mobility Unit (AxEMU) spacesuit.[9] Orion would remain docked for approximately two days and provide attitude and flight control for the combined spacecraft.[7][1]

During this time, a third launch would place a SpaceX Starship vehicle into orbit. After departing the Blue Origin vehicle, Orion would rendezvous and dock with Starship to evaluate docking operations. The Starship spacecraft would carry a docking mechanism but no crew cabin, and the astronauts would remain aboard Orion throughout the test. Orion would remain docked to Starship for approximately one day.[7][1]

About two weeks after launch, Orion would re-enter Earth's atmosphere using an upgraded heat shield and splash down in the Pacific Ocean off the coast of San Diego. The spacecraft and crew would then be recovered by the U.S. Navy.[4]

Crew

Prime crew
Position Astronaut
Commander Randy Bresnik, NASA
Third spaceflight
Pilot Luca Parmitano, ESA
Third spaceflight
Mission specialist Frank Rubio, NASA
Second spaceflight
Mission specialist Andre Douglas, NASA
First spaceflight
Backup crew
Position Astronaut
Mission specialist Robert Hines, NASA

NASA announced the Artemis III crew on June 9, 2026, at Johnson Space Center in Houston. The four prime crew members were assigned as Randy Bresnik, commander; Luca Parmitano, pilot; Frank Rubio, mission specialist; and Andre Douglas, mission specialist. Bob Hines was named as backup crew member.[4]

There are no women on the crew, a decision that NASA administrator Jared Isaacman said had drawn, "reactions ranging from disappointment to outrage", and the selected crew members were "the best astronauts to undertake and complete the mission's objectives" and stated that some astronauts were not assigned to Artemis III, because they were already slated for expeditions to the International Space Station or considered better suited for later Artemis missions.[10][11][12]

Spacecraft

Space Launch System

A large orange cylindrical tank pair for the Space Launch System rocket's first stage, being loaded into a long covered barge, on a brown canal
The upper section of the core stage being loaded into the Pegasus barge, April 2026
Main article: Space Launch System

The Space Launch System (SLS) is a super heavy-lift launch vehicle used to send the Orion spacecraft into orbit. The core stage for this mission is planned to use RS-25 engines E2048, E2052, E2054, and E2057, all of which previously flew on Space Shuttle missions and were refurbished by Aerojet Rocketdyne.[13][14]

The upper section of the core stage was built by Boeing, including the liquid hydrogen and liquid oxygen tanks, intertank, and forward skirt, was completed in April 2026 at NASA's Michoud Assembly Facility in New Orleans and was delivered to the Kennedy Space Center aboard the Pegasus barge on April 28. After arrival, the engine section, with its RS-25 engines, is to be installed. The refurbished engines are scheduled to be delivered from Stennis Space Center in Mississippi no later than July 2026.[15]

The mobile launch tower was returned to the Vehicle Assembly Building (VAB) at Kennedy Space Center following Artemis II for refurbishment and preparation for subsequent stacking operations.[16]

In May 2026, NASA announced that the mission will not use the agency's one remaining Interim Cryogenic Propulsion Stage (ICPS), preserving it for use on Artemis IV. Instead, NASA will use a "spacer", a representation of the overall dimensions of an upper stage but without propulsive capabilities. At the time, NASA said that design and fabrication of the spacer was already underway at the Marshall Space Flight Center.[5][17]

The segments for the solid rocket boosters began to arrive by rail in June 2026 and will be stored in the Rotation, Processing and Surge Facility until they are moved to the VAB for the stacking process.[18]

Orion

The Orion spacecraft for Artemis III under construction in February 2022
Main article: Orion (spacecraft)

Like the previous two missions, Orion is the crew transport vehicle being used by all of the Artemis missions thereafter. It will transport the crew from Earth to orbit, dock with the HLS lander, and return the crew back to Earth.

The European Service Module (ESM) for Artemis III, ESM-3, was delivered to NASA from the Airbus facility in Bremen, Germany in September 2024.[19]

The spacecraft's pressure vessel was built by Lockheed Martin at the Michoud Assembly Facility and shipped to the Kennedy Space Center in August 2021 for final assembly.[20] As of early 2026, production of the Artemis III Orion spacecraft was ongoing, with an internal readiness date of January 2028. Following a revision to Artemis III mission plans, which target a late 2027 launch,[2] NASA and Lockheed Martin have taken steps to speed up Orion rates.[16]

Human Landing System test articles

Renderings of the Human Landing System spacecraft: SpaceX's Starship HLS (left) and Blue Origin's Blue Moon Mark 2 (right)
Main article: Human Landing System

Artemis III is planned to evaluate two spacecraft in Earth orbit: a Blue Origin "lander test vehicle" and a SpaceX Starship test article. While these vehicles will be based on the Human Landing System (HLS) vehicles both companies are developing, NASA has called them "pathfinders" and they will be missing several key systems needed for a lunar landing.[17]

The Blue Origin vehicle, reportedly a crew-carrying variant of Blue Moon Mark 1,[21] is expected to carry a functioning life-support system, allowing the Artemis III crew to enter and evaluate its systems. Orion would remain responsible for control and maneuvering of the combined spacecraft.[7]

The SpaceX Starship is expected to be equipped with a docking mechanism, but not an operational life-support system, so the crew would remain aboard Orion rather than entering the vehicle.[7] As of April 2026, both spacecraft remained under development and had not yet completed NASA's human-rating certification process required before crewed operations.[16][22]

History

Early Artemis III plans

Artemis III was originally planned as the first crewed lunar landing mission of the Artemis program and the first crewed landing on the Moon since Apollo 17 in 1972. Under NASA's earlier plans, two astronauts would have landed near the lunar south pole while the remaining crew members stayed in lunar orbit aboard Orion.[23]

The mission originated as Exploration Mission-3 (EM-3), which was intended to support assembly of the Lunar Gateway in lunar orbit.[24] After the Artemis program was announced in 2019, the mission was redesignated Artemis III and repurposed as the program's first crewed lunar landing mission.[25]

Early concepts called for Orion to rendezvous with a Human Landing System in lunar orbit, initially with support from the Gateway. By 2020, NASA had removed Gateway from the mission profile and adopted a direct rendezvous and docking approach between Orion and the lunar lander.[26][27]

As part of planning for the lunar landing mission, NASA selected three science instruments for astronaut deployment on the lunar surface in 2024 and identified candidate landing regions near the lunar south pole.[28][23]

On May 2, 2025, the second Trump administration's fiscal year 2026 budget proposal called for ending the Space Launch System (SLS) and Orion programs after Artemis III, citing the SLS's estimated cost of $4 billion per launch.[29] However, the One Big Beautiful Bill Act, signed into law by President Donald Trump on July 4, 2025, provided funding for continued development and operation of SLS and Orion beyond Artemis III.[30]

In August 2025, NASA began processing Artemis III Space Launch System hardware at the Vehicle Assembly Building at Kennedy Space Center.[31]

Revision to Earth-orbit demonstration

On February 27, 2026, NASA announced a revised Artemis flight sequence with a redesignated Artemis III as a crewed demonstration mission in low Earth orbit. Under the revised plan, the mission would evaluate Orion systems and conduct integrated operations with commercial lunar lander providers in preparation for later lunar missions.[5] NASA has stated that Artemis IV, planned for early 2028, is expected to become the program's first crewed lunar landing mission.[6][32]

After considering a high Earth orbit (HEO) profile, planners selected an approximately 230-nautical-mile (430 km; 260 mi) low Earth orbit (LEO) mission,[8] allowing NASA to preserve an Interim Cryogenic Propulsion Stage for use on Artemis IV. NASA determined that this benefit outweighed the advantages of a HEO mission, which would have more closely simulated the thermal and operational conditions encountered near the Moon and provided a more rigorous test of Orion's systems.[33]

See also

  • List of Artemis missions
  • List of missions to the Moon
  • New Space Race

References

  1. ^ a b c d Roulette, Joey (June 9, 2026). "NASA taps US astronauts, Italian for Artemis mission with SpaceX, Blue Origin mooncraft". Reuters. Retrieved June 10, 2026.
  2. ^ a b Clark, Stephen (April 28, 2026). "Put it in pencil: NASA's Artemis III mission will launch no earlier than late 2027". Ars Technica. Retrieved April 28, 2026.
  3. ^ "Artemis III". NASA. Retrieved June 10, 2026. Public Domain This article incorporates text from this source, which is in the public domain.
  4. ^ a b c d Shaw, Elizabeth (June 9, 2026). "NASA Marches Toward Artemis III Mission in 2027, Names Crew Members". NASA. Retrieved June 10, 2026. Public Domain This article incorporates text from this source, which is in the public domain.
  5. ^ a b c d Low, Lauren E. (May 13, 2026). "NASA Outlines Preliminary Artemis III Mission Plans". NASA. Retrieved June 10, 2026. Public Domain This article incorporates text from this source, which is in the public domain.
  6. ^ a b "Artemis IV". NASA. Retrieved June 10, 2026. Public Domain This article incorporates text from this source, which is in the public domain.
  7. ^ a b c d e Berger, Eric (June 9, 2026). "NASA assigns crew for Artemis III, sets aggressive timeline for flying it". Ars Technica. Retrieved June 9, 2026.
  8. ^ a b Berger, Eric (June 10, 2026). "We managed to glean some interesting details about the Artemis III mission". Ars Technica. Retrieved June 10, 2026.
  9. ^ Parsons, Jeremy (June 9, 2026). Artemis III Announcement (Video). NASA. Event occurs at 15:54. Retrieved June 10, 2026 – via YouTube. Our spacesuit provider, Axiom Space, is making great progress as well. We have suit testing ongoing regularly at the Neutral Buoyancy Lab down the road here in Houston. Pressure garments worn under the suit are fully assembled and undergoing testing, and the components of the suit's primary life support system are in hand and being integrated. We are going to fly the spacesuit aboard the International Space Station to check it out in 2027, and we will perform hardware interface checkouts on at least one lander in a spacesuit during Artemis III.
  10. ^ Miller, Katrina; Callaway, K. R.; Chang, Kenneth (June 9, 2026). "Meet the NASA Astronauts in the Artemis III 4-Person Crew". The New York Times. ISSN 0362-4331. Retrieved June 10, 2026.
  11. ^ Isaacman, Jared [@nasaadmin] (June 10, 2026). "The Astronaut Office assigns the crew that gives the mission the best chance of meeting its objectives, taking into account many factors, including the background and expertise of the astronauts, such as test pilot experience, development work on specific programs, and availability" (Tweet). Retrieved June 10, 2026 – via X (formerly Twitter).
  12. ^ Chow, Denise (June 10, 2026). "NASA addresses criticism over all-male crew selected for Artemis III test mission". NBC News. Retrieved June 11, 2026.
  13. ^ "RS-25 engine assignments". The Planetary Society. Archived from the original on August 17, 2023. Retrieved August 17, 2023.
  14. ^ Sloss, Philip (November 18, 2025). "L3Harris testing brand new RS-25 engines for future Artemis launches". NASASpaceflight. Retrieved January 28, 2026.
  15. ^ Dooren, Jennifer M. (April 13, 2026). "NASA Invites Media to Rollout Event for Artemis III Moon Rocket Stage". NASA. Retrieved April 14, 2026.
  16. ^ a b c Berger, Eric (April 11, 2026). "The Artemis II mission has ended. Where does NASA go from here?". Ars Technica. Retrieved April 14, 2026.
  17. ^ a b Berger, Eric (May 13, 2026). "NASA provides some details about Artemis III, but hard decisions remain". Ars Technica. Retrieved May 15, 2026.
  18. ^ "Artemis III SRB Arrival". NASA. June 8, 2026. Retrieved June 10, 2026.
  19. ^ "ESA delivers again: ESM-3 departs for US to power Artemis III" (Press release). European Space Agency. August 22, 2024. Retrieved March 4, 2026.
  20. ^ Peters, Erika (September 10, 2021). "Next Generation of Orion Spacecraft in Production for Future Artemis Missions". NASA. Retrieved April 14, 2026.
  21. ^ Berger, Eric (October 20, 2025). "Why did NASA's chief just shake up the agency's plans to land on the Moon?". Ars Technica. Retrieved April 17, 2026.
  22. ^ Berger, Eric (April 6, 2026). "NASA's Moon ship and rocket seem to be working well, so what about the landers?". Ars Technica. Retrieved April 14, 2026.
  23. ^ a b "NASA Provides Update on Artemis III Moon Landing Regions". NASA. October 28, 2024. Retrieved June 10, 2026. Public Domain This article incorporates text from this source, which is in the public domain.
  24. ^ Sloss, Philip (December 4, 2017). "NASA evaluates EM-2 launch options for Deep Space Gateway PPE". NASASpaceflight. Retrieved March 2, 2018.
  25. ^ Grush, Loren (May 17, 2019). "NASA administrator on new Moon plan: "We're doing this in a way that's never been done before"". The Verge. Archived from the original on July 4, 2020. Retrieved July 17, 2020.
  26. ^ Gohd, Chelsea (March 16, 2020). "NASA's "critical path" to the Moon no longer requires a lunar Gateway: Report". Space.com. Archived from the original on March 31, 2020. Retrieved May 16, 2020. NASA has removed the Lunar Gateway from its "critical path" to return humans to the Moon by 2024, according to a SpaceNews report.
  27. ^ Foust, Jeff (May 14, 2020). "NASA refines plans for launching Gateway and other Artemis elements". SpaceNews. Retrieved May 16, 2020. ... Loverro reiterated previous statements that the Gateway will not be used for the Artemis 3 mission that will attempt to land humans on the Moon to "make that mission have a higher probability of success".
  28. ^ "NASA Selects First Lunar Instruments for Artemis Astronaut Deployment". NASA. March 26, 2024. Retrieved June 10, 2026. Public Domain This article incorporates text from this source, which is in the public domain.
  29. ^ "Fiscal Year 2026 Discretionary Budget Request" (PDF). United States Office of Management and Budget. May 2, 2025. p. 37. Retrieved May 2, 2025.
  30. ^ "One Big Beautiful Bill Act". Public Law 119–21. 119th United States Congress. July 4, 2025. 139 Stat. 134 (SEC. 40005, appropriations for SLS, Orion, and Artemis Missions IV and V). Retrieved January 18, 2026.
  31. ^ NASA Communications team (August 18, 2025). "NASA Begins Processing Artemis III Moon Rocket at Kennedy". NASA. Retrieved August 18, 2025.
  32. ^ "Moon to Mars: NASA's Artemis Program". NASA. Retrieved June 10, 2026. Public Domain This article incorporates text from this source, which is in the public domain.
  33. ^ Berger, Eric (April 8, 2026). "With Orion still flying, NASA is nearing key decisions about Artemis III". Ars Technica. Retrieved April 8, 2026.
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