Compare Lunar Landers

Pick up to 4 vehicles to compare side-by-side. State lives in the URL — share the link and the comparison loads exactly as you left it. No JavaScript required.

Attribute	Starship HLS Artemis III Crewed Landing Trust: Agency-primary Last verified 2026-05-28Remove ×	Blue Moon Mark 2 Sustaining HLS (Artemis V+) Trust: Agency-primary Last verified 2026-05-28Remove ×	Chang'e 6 (orbiter + lander + ascender + returner) Trust: Agency-primary Last verified 2026-05-28Remove ×
Operator	SpaceX	Blue Origin	CNSA
Prime contractor	SpaceX	Blue Origin (with Lockheed Martin, Boeing, Draper, Astrobotic, Honeybee Robotics on prime team)	China Academy of Space Technology (CAST)
Status	In development	In development	Landed
Customer	NASA-HLS	NASA-HLS	CNSA
Launch date	2027 (NET — Artemis III)	2030 (NET — Artemis V crewed); uncrewed demo 2027	2024-05-03
Landing date	—	—	2024-06-01
Landing site	Lunar south pole (NASA-curated candidate region near 84-90°S)	Lunar south pole — 30-day surface stays	Apollo crater, South Pole-Aitken Basin (lunar far side)
Payload	~100 tonnes to lunar surface (sustained variant target) (2024-04-16)	20 t reusable / 30 t one-way to surface; crew 2-4 for up to 30 days (2026-01-04)	1,935.3 g of lunar far-side regolith returned to Earth (2024-06-25)
Contract value	$2.89B + $1.15B Option B = $4.04B total (2022-11-15)	$3.4B (2023-05-19)	—
Outcome	Selected April 2021 as sole HLS provider for Artemis III. Architecture requires Super Heavy launch + multiple Starship tanker refueling flights in LEO + transit to NRHO + rendezvous with Orion (SLS). NASA OIG IG-26-004 (March 2026) flagged crew-rescue capability as open risk. October 2025: NASA acting administrator Sean Duffy reopened Artemis III lander contract to competition due to Starship development pace.	Selected May 2023 as second HLS provider for sustained Artemis-era lunar operations. Full-scale prototype delivered to NASA Johnson Space Center in early 2026 for astronaut training. Completed third pressurized suit-test campaign with NASA Johnson's Active Response Gravity Offload System (ARGOS).	First-ever sample return from the lunar far side and the South Pole-Aitken Basin. Used the Queqiao-2 relay satellite for far-side comms. Samples revealed unexpectedly cohesive grain behavior and excavated material from the Moon's mantle.

Add another (1 slot left)

Blue Ghost + Elytra Dark+

Blue Moon Mark 1 (flight 2)+

Chandrayaan-4 (5-module sample return)+

ISRO

In development

Chang'e 7 (orbiter + lander + rover + mini-flying probe)+

CNSA

In development

Argonaut (European Large Logistics Lander, EL3)+

ESA

In development

LUPEX (ISRO lander + JAXA rover)+

JAXA + ISRO

In development

About this tool

Pure URL state — no JavaScript, no localStorage, no cookies. The comparison renders entirely on the server from the slugs in the query string. Bookmark or share the URL and the comparison reproduces exactly.

Underlying dataset: GET /api/moon/landers. Methodology: /moon/methodology.

Compare Lunar Landers

Pick up to 4 vehicles to compare side-by-side. State lives in the URL — share the link and the comparison loads exactly as you left it. No JavaScript required.

Attribute	Starship HLS Artemis III Crewed Landing Trust: Agency-primary Last verified 2026-05-28Remove ×	Blue Moon Mark 2 Sustaining HLS (Artemis V+) Trust: Agency-primary Last verified 2026-05-28Remove ×	Chang'e 6 (orbiter + lander + ascender + returner) Trust: Agency-primary Last verified 2026-05-28Remove ×
Operator	SpaceX	Blue Origin	CNSA
Prime contractor	SpaceX	Blue Origin (with Lockheed Martin, Boeing, Draper, Astrobotic, Honeybee Robotics on prime team)	China Academy of Space Technology (CAST)
Status	In development	In development	Landed
Customer	NASA-HLS	NASA-HLS	CNSA
Launch date	2027 (NET — Artemis III)	2030 (NET — Artemis V crewed); uncrewed demo 2027	2024-05-03
Landing date	—	—	2024-06-01
Landing site	Lunar south pole (NASA-curated candidate region near 84-90°S)	Lunar south pole — 30-day surface stays	Apollo crater, South Pole-Aitken Basin (lunar far side)
Payload	~100 tonnes to lunar surface (sustained variant target) (2024-04-16)	20 t reusable / 30 t one-way to surface; crew 2-4 for up to 30 days (2026-01-04)	1,935.3 g of lunar far-side regolith returned to Earth (2024-06-25)
Contract value	$2.89B + $1.15B Option B = $4.04B total (2022-11-15)	$3.4B (2023-05-19)	—
Outcome	Selected April 2021 as sole HLS provider for Artemis III. Architecture requires Super Heavy launch + multiple Starship tanker refueling flights in LEO + transit to NRHO + rendezvous with Orion (SLS). NASA OIG IG-26-004 (March 2026) flagged crew-rescue capability as open risk. October 2025: NASA acting administrator Sean Duffy reopened Artemis III lander contract to competition due to Starship development pace.	Selected May 2023 as second HLS provider for sustained Artemis-era lunar operations. Full-scale prototype delivered to NASA Johnson Space Center in early 2026 for astronaut training. Completed third pressurized suit-test campaign with NASA Johnson's Active Response Gravity Offload System (ARGOS).	First-ever sample return from the lunar far side and the South Pole-Aitken Basin. Used the Queqiao-2 relay satellite for far-side comms. Samples revealed unexpectedly cohesive grain behavior and excavated material from the Moon's mantle.