On Tuesday, June 9, 2026 NASA held a major event to reveal the 4-man crew to fly the upcoming Artemis 3 Earth-orbit rendezvous mission and provide more information on the mission itself.
Originally planned to be the first Artemis mission to return humans to the Moon, Artemis 3 was wisely re-purposed early in 2026 to give astronauts a chance to get a hands-on feel for the vehicles intended to get them from lunar orbit to the surface of the Moon and back again, by testing them in the relative safety of low-Earth orbit. Prior to this re-purposing, the first opportunity any crew would have had to test either vehicle – to be supplied by Blue Origin and SpaceX and referred to a the Human Landing System (HLS) by NASA – in space would have been immediately before the first attempt to land one of the vehicles on the Moon. Needless to say, this was hardly an ideal approach.
Instead, Artemis 3 will now be a 2-week mission (the longest yet for a crewed Orion vehicle) that will be a sort-of updated version of 1969’s Apollo 9 mission, which saw the Apollo Lunar Module tested in orbit around Earth during a 10-day flight. However, there will be a number of obvious and key differences which I’ll be getting to shortly.
The all-male crew for Artemis 3 comprise three US astronauts and one European Space Agency astronaut, with three of the crew highly experienced spaceflight veterans and the fourth making his first trip into space. They are:
Randolph “Randy” James Bresnik, 58 (NASA): Commander
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Randolph “Randy” Bresnik, Artemis 3 Mission Commander Born in Fort Knox Kentucky, Bresnik served in the US Marine Corps, logging an impressive 6,000 hours flying 81 different aircraft types, including time served as a test pilot before retiring with the rank of Colonel.
- He joined the NASA astronaut corps in 2004, completing his training two years later.
- First flew in space STS-129 in 2009 aboard space shuttle Atlantis. The 13-day mission was part of the International Space Station (ISS) construction, and he performed two EVAs alongside crewmates Michael Foreman and Robert Satcher respectively, to install external payload / experiment pallets on to the space station.
- In 2011, he participated in the first ESA CAVES mission, a training course in which international astronauts train in a space-analogue cave environments such as might be used on Mars missions. Then in 2014 he commanded the NEEMO 19 mission, another analogue mission type, this one operated by NASA and using an underwater laboratory.
- In 2017, he made his second trip to the ISS, this time launching aboard Soyuz MS-05 and spending 138 days on the space station as a part of the Expedition 52/53 crews, during which he performed three more EVAs, bringing his total “spacewalk” time to 32 hours.
Luca Salvo Parmitano, 49 (ESA): Pilot
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Luca Parmitano (ESA): Artemis 3 Pilot Sicilian-born Parmitano was the first Italian (and third European overall) to command a crew rotation aboard the ISS.
- He was educated in both Italy and the USA, gaining holding a masters degree in political science from University of Naples.
- He served in the Italian Air Force after training with the US Air Force, rising to the rank of Colonel and logging over 2,000 hours on over 40 types of aircraft (both fixed-wing and rotary), including time as a test pilot.
- Joined the European Astronaut Corps in 2009, and made his first flight to the ISS in 2011 aboard Soyuz TMA-09M.
- During this mission he carried out two EVAs, the second called short after he almost drowned when a fault in his spacesuit filled his helmet with coolant water up to his nose, shorting out his communications headset in the process.
- On returning to Earth, he indirectly followed in Bresnik’s footsteps, being selected for the 2014 ESA CAVES mission and then the NASA NEEMO 20 mission in 2015. He also participated in the ESA PANGAEA analogue mission in 2016.
- He returned to the ISS as a part of the Expedition 60 in 2019, flying alongside Christina Koch, one of the Artemis 2 crew. Whilst there, he completed four more EVAs for a total EVA time to 33 hours 9 minutes; became the first DJ to perform a live set from space (as a part of an music festival taking place in Ibiza) and took command of the ISS for 3 months as a part of Expedition 61.
- With a total time of just 59 minutes shy of 367 days in space, he is the second most experienced member of the Artemis 3 crew in terms of time in space.
Francisco “Frank” Carlos Rubio, 50 (NASA): Mission Specialist 1
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Francisco “Frank” Rubio, Artemis 3 MS-1 A graduate of the United State Military Academy, holding a bachelor’s degree in international relations, he logged over 1,100 hours flying helicopters for the US Army, with 600 hours on combat missions in Bosnia, Iraq and Afghanistan.
- He then transferred to the Army’s medical service, qualifying as a flight surgeon and then a field surgeon with the US Army Special Forces, rising to the rank of Colonel in the process.
- Joining NASA in 2017, he made his first flight into space aboard Soyuz MS-22.
- Planned for 6 months, as I reported at the time, this mission lasted more than a year after the Soyuz vehicle suffered a serious coolant leak. As a result, he and cosmonauts Sergey Prokopyev and Dmitry Petelin eventually returned to Earth aboard Soyuz MS-23 after completing 2 back-to-back 6-month tours on the ISS.
- As a result of this, he clocked up almost 371 days in orbit, taking the record for the longest continuous time in space for a US astronaut.
Andre Douglas, 40 (NASA): Mission Specialist 2
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Andre Douglas, Artemis 3 MS-2 The mission rookie, making his first flight in space, he serves in the US Coast Guard (USCG) as a special advisor to the commander of the service. During his career, he served both at sea and on-shore, including time as Commandant of the USCG Academy.
- He holds both a bachelor’s and master’s degree in mechanical engineering; and further three master’s in naval architecture, marine engineering and electrical & computer engineering.
- In 2015 he transitioned from active service to the Applied Physics Laboratory (APL) of Johns Hopkins University. Here he carried out wide-ranging research, published several papers and collaborated with NASA to assess lunar surface needs for human and robotic missions, and helped to guide technology development in both.
- He joined NASA in 2021, completing his astronaut training in May 2024.
- His first active duty role was on the back-up crew for Artemis 2, training alongside the prime crew ready to replace any one of them in the event of injury or illness. He also served as a member of the launch pad close-out crew responsible for getting the crew safety into their Orion capsule on the day of the mission’s launch.
Following the announcement of the crew, NASA came in for criticism in that it is an all-male team, critics claims the selection was the result of the Trump administration’s determination to eliminate all aspects of DEI from the federal workforce. Responding to the criticism, NASA Administrator Jared Isaacman pointed out that crew selection is based on specific criteria notably in this case, the need for well-qualified test pilots (Bresnik and Parmitano) and someone closely involved in the development of lunar flight systems (Douglas), whilst Rubio’s medical experience would enhance the science elements of the mission.
Artemis 3 Mission Profile
As currently defined, Artemis 3 will proceed in four parts.
In the first, Blue Origin will use their New Glenn rocket to launch their Blue Moon MK2 Pathfinder to low Earth orbit. Pathfinder is essentially a working crew module from their actual HLS vehicle, complete with RCS thrusters, solar arrays and a simulated set of cryogenic tanks actual Blue Moon HLS vehicles will require.
With the Pathfinder vehicle in orbit, NASA will launch the Artemis crew aboard an Orion vehicle atop a modified Space Launch System (SLS) rocket. This rocket will lack the Interim Cryogenic Propulsion (ICPS) upper stage replaced by a mass simulator, as the ICPS is not required for the mission. The Orion will then rendezvous with the Pathfinder vehicle to commence two days of vehicle testing. This work will include:
- Docking against Pathfinder’s orbital docking adopter/airlock.
- Testing the airlock system on the Pathfinder vehicle, with two members of the crew boarding the vehicle.
- Testing the module’s life support system through practical use, and also testing the on-board control, data management, navigation and communications systems.
- Carrying out a practical evaluation of the module’s living spaces in micro-gravity.
- Testing the module’s spacesuit storage and dressing spaces, with one of the crew actually donning and doffing one of the new Artemis space suits being developed by Axiom (or a non-functioning prototype thereof, depending on which is available at the time of the mission).
This is a fairly comprehensive test of the Blue Moon MK2 HLS crew module; however, it slips behind Apollo 9 in that there will be no testing of the HLS main propulsion system, and Pathfinder will not detach from Orion for a free-flight test of its RCS systems; Orion will manage all control and manoeuvring of the combined vehicles.
Following the Blue Moon tests, Orion will then shift to a single day of testing the docking system that will form part of the SpaceX Starship derived HLS. This docking system will be sent aloft on a “standard” Starship vehicle which – as of June 9th – is not expected to carry any other elements of the SpaceX HLS, severely limiting the idea of on-orbit system testing.
The fourth part of the mission will be peppered across the entire 2 weeks, comprising a range of science studies. These will include observations and measurements of the Earth’s atmosphere, together with medical and environment studies that build on the human science experiments carried out as a part of Artemis 2, and which are designed to further increase our understanding of dynamic space environments and radiation patterns.
One additional element of the mission has yet to be confirmed, and that is the potential for an EVA test. Details on this are currently sketchy, and it ultimately depends on whether or not Axiom can deliver a working version of the new Artemis space suits. These are intended to be a modular, dual-purpose design so they can either be used as part of surface operations on the Moon or as EVA suits for micro-gravity work aboard the ISS and other space stations, so a test on Artemis 3 would help further validate the suit design for both roles.
If the suit carried aboard the Blue Origin Pathfinder vehicle is fully functional, then there will likely be a full test of the vehicle’s main lunar surface airlock system, including depressurising and repressurising it, testing the hatch mechanisms, etc. However, the individual wearing the suit will not actually exit the vehicle.
That the SpaceX vehicle is unlikely to be equipped with anything other than the HLS / Orion docking adaptor potentially puts SpaceX at a further disadvantage in terms of which HLS craft will be selected for Artemis 4 (and possibly Artemis 5), simply because the tests with the Blue Moon MK2 Pathfinder are liable to give NASA a greater degree of confidence in that vehicle. This is further supported by the fact that Blue Origin have already supplied NASA with two test articles of their lander’s crew module, own of which is fully equipped for ground-based training and simulations. SpaceX are unlikely to achieve this before late 2026 at the earliest.
However, this does suppose that Blue Origin will actually be able to participate in Artemis 3 as currently scheduled. As I’ve previously reported, the only launch pad capable of handling New Glenn was destroyed on May 18th, 2026, during the testing of a New Glenn rocket in preparation for its next flight. Whilst Blue Origin is hoping to have all reconstruction work at LC-36 completed well in time for Artemis 3, there is a huge amount of work to be done in this regard.
Given this, Blue Origin’s Senior Vice President of Lunar Permanence, John Couluris used the June 9th event to indicate that as well as trying to push ahead with on-site investigations and clean-up operations at LC-36 so as to allow rebuilding to commence sooner rather than later, Blue Origin is also seeking to accelerate plans submitted for approval in April 2026 for the construction of a brand new launch facility to support New Glenn operations.
Dubbed SL-36B/11, this is to be built on the company’s current engine test stand located at LC-11, Canaveral Space Force Station and a short distance from LC-36. The hope is that if the approval process can be accelerated, Blue Origin will be able to commence construction even as work continues at LC-36. If so, there is a possibility the company might have two launch pads available for New Glenn flights by the time of Artemis 3.
Obviously, this is a very ambitious plan, and as such there is still the possibility that Artemis 3 might yet be pushed back into 2028 (although political pressure could weigh heavily against this) in order to ensure Blue Origin is in a position to participate. This could also benefit SpaceX, as it might provide them with the opportunity to provide more than just the HLS docking adaptor for Artemis 3 testing (although this would likely be a long shot as well).
In the meantime, one interesting facet that did emerge from the June 9th event was that SpaceX and NASA are in discussions about changing the Artemis mission profiles when using the SpaceX HLS vehicle.
Under current plans, both the Blue Origin and SpaceX HLS vehicles are launched into low-Earth orbit first and (after propellant loading / docking with a transport vehicle in the case of Blue Origin) then proceed to lunar orbit to await the arrival of a crew aboard an Orion spacecraft. However, the SpaceX / NASA discussions revolve around having the Orion vehicle rendezvous and dock with the SpaceX HLS whilst the latter is still in orbit and after it has received the propellant load-out it requires to carry out its lunar mission.
This approach actually makes a lot of sense. For one thing, it means that the crew could potentially make use of the the roomier facilities aboard the SpaceX HLS during the outbound trip to the Moon (and ensure it is all functioning smoothly) and it would potentially provide them was a “lifeboat” capability in the event of an Apollo 13-style accident. As such, it will be interesting to see had far these discussions progress.
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