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	== Mission events ==		== Mission events ==
			On May 20, 2021, Firefly Aerospace announced its selection of ]'s ] as the launch vehicle for the inaugural Blue Ghost lunar lander mission. This decision was made due to the Falcon 9's performance and payload capacity, which Firefly's ] rocket could not provide.<ref>{{Cite web \|last=Foust \|first=Jeff \|date=May 20, 2021 \|title=Firefly selects SpaceX to launch its lunar lander \|url=https://spacenews.com/firefly-selects-spacex-to-launch-its-lunar-lander/ \|access-date=May 22, 2021 \|publisher=SpaceNews}}</ref> The company indicated that its future Medium Launch Vehicle would support subsequent Blue Ghost missions.<ref>{{Cite tweet \|number=1395382812308561922 \|user=firefly_space \|title=Alpha rocket does not have the performance or payload volume needed to launch Blue Ghost – F9 does. Our future Beta launch vehicle will support Blue Ghost launch. \|author=Firefly Aerospace \|date=May 20, 2021 \|access-date=May 20, 2021}}</ref>
	=== Prior to launch ===
⚫	The mission is planned to land at ], a {{cvt\|500\|km}} wide basin visible from Earth. Instruments will gather data to provide insight into the Moon's ] – loose, fragmented rock and soil – properties, geophysical characteristics, and the interaction of ] and ],<ref name="NASA20210204">{{Cite press release \|title=NASA Selects Firefly Aerospace for Artemis Commercial Moon Delivery in 2023 \|date=February 4, 2021 \|publisher=NASA \|url=https://www.nasa.gov/press-release/nasa-selects-firefly-aerospace-for-artemis-commercial-moon-delivery-in-2023 \|access-date=March 5, 2021 \|url-status=live \|archive-url=https://web.archive.org/web/20210204211114/https://www.nasa.gov/press-release/nasa-selects-firefly-aerospace-for-artemis-commercial-moon-delivery-in-2023 \|archive-date=February 4, 2021}} {{PD-notice}}</ref> helping to prepare for human missions to the lunar surface. On May 20, 2021, Firefly selected ]'s ] as the launch vehicle for the first mission, as its own Alpha rocket does not have the performance or payload volume needed to launch Blue Ghost.<ref>{{Cite web \|last=Foust \|first=Jeff \|date=May 20, 2021 \|title=Firefly selects SpaceX to launch its lunar lander \|url=https://spacenews.com/firefly-selects-spacex-to-launch-its-lunar-lander/ \|access-date=May 22, 2021 \|publisher=SpaceNews}}</ref> Firefly's future MLV launch vehicle is expected to support future Blue Ghost missions.<ref>{{Cite tweet \|number=1395382812308561922 \|user=firefly_space \|title=Alpha rocket does not have the performance or payload volume needed to launch Blue Ghost – F9 does. Our future Beta launch vehicle will support Blue Ghost launch. \|author=Firefly Aerospace \|date=May 20, 2021 \|access-date=May 20, 2021}}</ref>

		⚫	Development milestones for the Blue Ghost lander progressed steadily over the following years. On April 26, 2022, Firefly completed the Integration Readiness Review (IRR) for the lander, with a tentative launch date set for 2024.<ref>{{Cite web \|date=October 4, 2023 \|title=Firefly Aerospace Completes Blue Ghost Lunar Lander Structure Ahead of Moon Landing for NASA \|url=https://fireflyspace.com/news/firefly-aerospace-completes-blue-ghost-lunar-lander-structure-ahead-of-moon-landing-for-nasa/}}</ref> In November 2023, Firefly refined the schedule, specifying a launch window between the third and fourth quarters of 2024.
	==== Timeline ====

			By May 2024, the engines for Blue Ghost were completed,<ref>{{Cite web \|last=Parsonson \|first=Andrew \|date=April 29, 2024 \|title=Nammo UK Prepares to Deliver Engine for US Lunar Lander \|url=https://europeanspaceflight.com/nammo-uk-prepares-to-deliver-engine-for-us-lunar-lander/ \|access-date=May 4, 2024 \|website=European Spaceflight \|language=en-US}}</ref> and their integration into the lander was confirmed in June.<ref>{{Cite web \|title=One step closer to launch and landing as our Firefly team installed Blue Ghost's main engine \|url=https://x.com/Firefly_Space/status/1798757185398448539}}</ref> Firefly announced that preparations were proceeding as planned, with the company reaffirming a Q4 2024 launch target in July.<ref>{{Cite tweet \|number=1818380477964706162 \|user=Firefly_Space \|title=We're going to the Moon! As Blue Ghost gets ready to ship for final environmental testing, get a behind-the-scenes look of how we got here and the mission ahead. Stay tuned for more on Blue Ghost Mission 1 in the coming months ahead of the Q4 2024 launch. \|date=July 30, 2024 \|access-date=October 2, 2024}}</ref> Environmental testing of the lander commenced in August at NASA’s ] (JPL), ensuring the spacecraft's readiness for the rigors of spaceflight.<ref>{{Cite web \|last=Foust \|first=Jeff \|date=August 26, 2024 \|title=Firefly Aerospace's lunar lander begins pre-launch environmental tests \|url=https://spacenews.com/firefly-aerospaces-lunar-lander-begins-pre-launch-environmental-tests/ \|access-date=August 27, 2024 \|website=SpaceNews \|language=en-US}}</ref>
⚫	* On April 26, 2022, Firefly ~~announced the completion of~~ the Integration Readiness Review (IRR) for the ~~first ''Blue Ghost''~~ lander~~, M1~~, with ~~the~~ launch ~~now~~ ~~expected~~ ~~to occur in~~ 2024.<ref>{{Cite web \|date=October 4, 2023 \|title=Firefly Aerospace Completes Blue Ghost Lunar Lander Structure Ahead of Moon Landing for NASA \|url=https://fireflyspace.com/news/firefly-aerospace-completes-blue-ghost-lunar-lander-structure-ahead-of-moon-landing-for-nasa/}}</ref>
	* In November 2023 Firefly provided a more precise time window for the mission, occurring between the third and the fourth quarters of 2024.
	* In May 2024, the first engines for Blue Ghost were completed.<ref>{{Cite web \|last=Parsonson \|first=Andrew \|date=April 29, 2024 \|title=Nammo UK Prepares to Deliver Engine for US Lunar Lander \|url=https://europeanspaceflight.com/nammo-uk-prepares-to-deliver-engine-for-us-lunar-lander/ \|access-date=May 4, 2024 \|website=European Spaceflight \|language=en-US}}</ref>
	* In June 2024, the company announced the engines were integrated and the lander would soon be scheduled for launch.<ref>{{Cite web \|title=One step closer to launch and landing as our Firefly team installed Blue Ghost's main engine \|url=https://x.com/Firefly_Space/status/1798757185398448539}}</ref>
	* In July 2024, the company reiterated a Q4 2024 launch.<ref>{{Cite tweet \|number=1818380477964706162 \|user=Firefly_Space \|title=We're going to the Moon! As Blue Ghost gets ready to ship for final environmental testing, get a behind-the-scenes look of how we got here and the mission ahead. Stay tuned for more on Blue Ghost Mission 1 in the coming months ahead of the Q4 2024 launch. \|date=July 30, 2024 \|access-date=October 2, 2024}}</ref>
	* Pre launch environmental testing began in August at ].<ref>{{Cite web \|last=Foust \|first=Jeff \|date=August 26, 2024 \|title=Firefly Aerospace's lunar lander begins pre-launch environmental tests \|url=https://spacenews.com/firefly-aerospaces-lunar-lander-begins-pre-launch-environmental-tests/ \|access-date=August 27, 2024 \|website=SpaceNews \|language=en-US}}</ref>
⚫	* In November 2024, ~~the~~ ~~company~~ announced that Blue Ghost was ~~ready~~ for launch, ~~and~~ ~~would launch in~~ mid-January 2025.<ref>{{Cite web \|date=November 25, 2024 \|title=Firefly Aerospace Blue Ghost Mission 1 to the Moon Readies for Launch \|url=https://fireflyspace.com/news/firefly-aerospace-blue-ghost-mission-1-to-the-moon-readies-for-launch/ \|access-date=November 30, 2024 \|publisher=Firefly Aerospace}}</ref>
	* On January 7, 2025, Firefly aerospace announced that the mission was set to launch at 1:11 a.m. EST (06:11 UTC) on January 15, 2025.<ref>{{Cite tweet \|number=1876641220845244788 \|user=Firefly_Space \|title=Buckle up! Our road trip to the Moon is set to launch at 1:11 a.m. EST on Wednesday, Jan. 15 \|date=January 7, 2025}}</ref>

		⚫	In November 2024, Firefly Aerospace formally announced that the Blue Ghost lander was fully prepared for launch, setting a mid-January 2025 launch date.<ref>{{Cite web \|date=November 25, 2024 \|title=Firefly Aerospace Blue Ghost Mission 1 to the Moon Readies for Launch \|url=https://fireflyspace.com/news/firefly-aerospace-blue-ghost-mission-1-to-the-moon-readies-for-launch/ \|access-date=November 30, 2024 \|publisher=Firefly Aerospace}}</ref> On January 7, 2025, the company provided a precise launch time: 1:11 a.m. EST (06:11 UTC) on January 15, 2025. Payload encapsulation was completed on January 10, marking one of the final steps in the pre-launch sequence.
⚫	==== Payloads ====
⚫	The payloads, collectively expected to total {{Cvt\|94\|kg}} in mass, include:<ref name="NASA20210204" />

		⚫	On January 15, 2025, the Blue Ghost lander successfully launched at 1:11:39 a.m. EST (06:11:39 UTC) aboard a SpaceX Falcon 9 Block 5 rocket.<ref>{{Cite tweet \|number=1876641220845244788 \|user=Firefly_Space \|title=Buckle up! Our road trip to the Moon is set to launch at 1:11 a.m. EST on Wednesday, Jan. 15 \|date=January 7, 2025}}</ref> The mission also included Hakuto-R Mission 2 as a co-manifested payload.<ref>{{Cite web \|last=Schnautz \|first=Risa \|date=January 10, 2025 \|title=Blue Ghost Mission 1: Live Updates \|url=https://fireflyspace.com/news/blue-ghost-mission-1-live-updates/ \|access-date=January 14, 2025 \|website=Firefly Aerospace \|language=en-US}}</ref>
⚫	* The Regolith Adherence Characterization (RAC)~~, which~~ will determine how lunar regolith sticks to a range of materials exposed to the Moon's environment during landing and lander operations. Components will be derived from the ] facility currently on the ] (ISS).

⚫	* The Next Generation Lunar Retroreflectors (NGLR)~~, which~~ will serve as a target for lasers on Earth to precisely measure the distance between ] and the ]. The retroreflector that will fly on this mission ~~also~~ will provide data that could be used to understand various aspects of the lunar interior and address fundamental physics questions.
		⚫	== Payloads ==
		⚫	The mission is planned to land at ], a {{cvt\|500\|km}} wide basin visible from Earth. Instruments will gather data to provide insight into the Moon's ] – loose, fragmented rock and soil – properties, geophysical characteristics, and the interaction of ] and ],<ref name="NASA20210204">{{Cite press release \|title=NASA Selects Firefly Aerospace for Artemis Commercial Moon Delivery in 2023 \|date=February 4, 2021 \|publisher=NASA \|url=https://www.nasa.gov/press-release/nasa-selects-firefly-aerospace-for-artemis-commercial-moon-delivery-in-2023 \|access-date=March 5, 2021 \|url-status=live \|archive-url=https://web.archive.org/web/20210204211114/https://www.nasa.gov/press-release/nasa-selects-firefly-aerospace-for-artemis-commercial-moon-delivery-in-2023 \|archive-date=February 4, 2021}} {{PD-notice}}</ref> helping to prepare for human missions to the lunar surface.

		⚫	The payloads, collectively expected to total {{Cvt\|94\|kg}} in mass, include:<ref name="NASA20210204" />
		⚫	* The Regolith Adherence Characterization (RAC) will determine how lunar regolith sticks to a range of materials exposed to the Moon's environment during landing and lander operations. Components will be derived from the ] facility currently on the ] (ISS).
		⚫	* The Next Generation Lunar Retroreflectors (NGLR) will serve as a target for lasers on Earth to precisely measure the distance between ] and the ]. The retroreflector that will fly on this mission will also provide data that could be used to understand various aspects of the lunar interior and address fundamental physics questions.
	* The Lunar Environment Heliospheric X-ray Imager (LEXI), which will capture images of the interaction of ] with the flow of ]s from the ], called the ].		* The Lunar Environment Heliospheric X-ray Imager (LEXI), which will capture images of the interaction of ] with the flow of ]s from the ], called the ].
	* The Reconfigurable, Radiation Tolerant Computer System (RadPC)~~, which~~ aims to demonstrate a ] computing technology. Due to the Moon's lack of atmosphere and magnetic field, radiation from the Sun will be a challenge for electronics. This investigation ~~also~~ will characterize the ~~radiation~~ effects on the lunar surface.		* The Reconfigurable, Radiation Tolerant Computer System (RadPC) aims to demonstrate a ] computing technology. Due to the Moon's lack of atmosphere and magnetic field, radiation from the Sun will be a challenge for electronics. This investigation will also characterize the effects of radiation on the lunar surface.
	* The Lunar Magnetotelluric Sounder (LMS)~~, which~~ is designed to characterize the structure and composition of the Moon's mantle by studying electric and magnetic fields. The investigation will make use of a flight-spare magnetometer, a device ~~that~~ measures magnetic fields, originally made for the ] (MAVEN) spacecraft currently orbiting Mars.		* The Lunar Magnetotelluric Sounder (LMS) is designed to characterize the structure and composition of the Moon's mantle by studying electric and magnetic fields. The investigation will make use of a flight-spare magnetometer. This device measures magnetic fields, originally made for the ] (MAVEN) spacecraft currently orbiting Mars.
	* The Lunar Instrumentation for Subsurface Thermal Exploration with Rapidity (LISTER)~~, which~~ is designed to measure heat flow from the interior of the Moon. The probe will attempt to drill {{Cvt\|2.13 – 3.05\|m}} into the lunar regolith to investigate the Moon's thermal properties at different depths.		* The Lunar Instrumentation for Subsurface Thermal Exploration with Rapidity (LISTER) is designed to measure heat flow from the interior of the Moon. The probe will attempt to drill {{Cvt\|2.13 – 3.05\|m}} into the lunar regolith to investigate the Moon's thermal properties at different depths.
	* The Lunar PlanetVac (LPV)~~, which~~ is designed to acquire lunar regolith from the surface and transfer it to other instruments that would analyze the material or put it in a container that another spacecraft could return to Earth.		* The Lunar PlanetVac (LPV) is designed to acquire lunar regolith from the surface and transfer it to other instruments that would analyze the material or put it in a container that another spacecraft could return to Earth.
	* Stereo CAmeras for Lunar Plume Surface Studies (SCALPSS 1.1)~~, which~~ will capture video and still images of the area under the lander from when the engine plume first disturbs the lunar surface through engine shutdown. Long-focal-length cameras will determine the pre-landing surface ]. ] will be used to reconstruct the changing surface during landing. Understanding the physics of rocket exhaust on the regolith, and the displacement of dust, gravel, and rocks is critical to understanding how to ~~best~~ avoid kicking up surface materials during the terminal phase of flight/landing on the Moon and other celestial bodies.		* Stereo CAmeras for Lunar Plume Surface Studies (SCALPSS 1.1) will capture video and still images of the area under the lander from when the engine plume first disturbs the lunar surface through engine shutdown. Long-focal-length cameras will determine the pre-landing surface ]. ] will be used to reconstruct the changing surface during landing. Understanding the physics of rocket exhaust on the regolith and the displacement of dust, gravel, and rocks is critical to understanding how to avoid kicking up surface materials during the terminal phase of flight/landing on the Moon and other celestial bodies.
	* The Electrodynamic Dust Shield (EDS)~~, which~~ will generate a non-uniform electric field using varying high voltage on multiple electrodes. This traveling field, in turn, carries away the particles and has potential applications in thermal radiators, spacesuit fabrics, visors, camera lenses, solar panels, and many other technologies.		* The Electrodynamic Dust Shield (EDS) will generate a non-uniform electric field using varying high voltage on multiple electrodes. This traveling field, in turn, carries away the particles and has potential applications in thermal radiators, spacesuit fabrics, visors, camera lenses, solar panels, and many other technologies.
	* The Lunar GNSS Receiver Experiment (LuGRE), which is based on ]. LuGRE will continue to extend the reach of GPS signals and, if successful, be the first to discern GPS signals at lunar distances.		* The Lunar GNSS Receiver Experiment (LuGRE), which is based on ]. LuGRE will continue to extend the reach of GPS signals and, if successful, be the first to discern GPS signals at lunar distances.
	=== Launch and post-launch events ===
⚫	~~The payload was encapsulated on~~ January 10, 2025, ~~and~~ the ~~mission~~ launched on ~~January~~ 15, 2025, ~~with~~ ] on a ~~] launch vehicle~~.<ref>{{Cite web \|last=Schnautz \|first=Risa \|date=January 10, 2025 \|title=Blue Ghost Mission 1: Live Updates \|url=https://fireflyspace.com/news/blue-ghost-mission-1-live-updates/ \|access-date=January 14, 2025 \|website=Firefly Aerospace \|language=en-US}}</ref>

	== See also ==		== See also ==

Revision as of 22:01, 15 January 2025

2025 lunar landing mission

Blue Ghost Mission 1
Spacecraft properties
Rendering of Blue Ghost Mission 1 on the Moon
Names	CLPS TO 19D Ghost Riders in the Sky

Mission type	Lunar landing
Operator	Firefly Aerospace
COSPAR ID	2025-010A
SATCAT no.	62716
Mission duration	9 days (elapsed) 60 days (planned)


Spacecraft	Blue Ghost
Manufacturer	Firefly Aerospace
Launch mass	1,517 kg (3,344 lb)
BOL mass	1,469 kg (3,239 lb)
Dry mass	469 kg (1,034 lb)
Dimensions	Height: 2 m (6 ft 7 in) Width: 3.5 m (11 ft)
Power	400 watts


Start of mission
Launch date	January 15, 2025, 1:11:39 am EST (06:11:39 UTC)
Rocket	Falcon 9 Block 5 (B1085.5), Flight 425
Launch site	Kennedy, LC-39A
Contractor	SpaceX


Lunar lander
Landing date	March 2, 2025 (planned)
Landing site	Mare Crisium near Mons Latreille

Mission insignia Commercial Lunar Payload Services← IM-1 IM-2 →

Blue Ghost Mission 1 is an robotic Moon landing mission by Firefly Aerospace launched on January 15, 2025. It is a part of the Commercial Lunar Payload Services program.

Background and selection

On February 4, 2021, NASA awarded Firefly a contract worth US$93.3 million to deliver a suite of ten science investigations and technology demonstrations to the Moon in 2023. The award is part of the CLPS initiative, in which NASA is securing the service of commercial partners to quickly land science and technology payloads on the lunar surface as part of the Artemis program.

Mission hardware

Main article: Firefly Aerospace Blue Ghost

Blue Ghost has four landing legs, communications, heating and solar power systems, and features multiple layers of insulation. The Blue Ghost solar panels, from subcontractor SolAero By Rocket Lab, provide a maximum of 400 watts of power. ASI by Rocket Lab provides flight, ground and GN&C software, trajectory design, orbit determination, and software testbed integration. Firefly asserts that in-house end-to-end manufacturing and testing of the Blue Ghost structure is a differentiator among the CLPS landers.

Mission events

On May 20, 2021, Firefly Aerospace announced its selection of SpaceX's Falcon 9 Block 5 as the launch vehicle for the inaugural Blue Ghost lunar lander mission. This decision was made due to the Falcon 9's performance and payload capacity, which Firefly's Alpha rocket could not provide. The company indicated that its future Medium Launch Vehicle would support subsequent Blue Ghost missions.

Development milestones for the Blue Ghost lander progressed steadily over the following years. On April 26, 2022, Firefly completed the Integration Readiness Review (IRR) for the lander, with a tentative launch date set for 2024. In November 2023, Firefly refined the schedule, specifying a launch window between the third and fourth quarters of 2024.

By May 2024, the engines for Blue Ghost were completed, and their integration into the lander was confirmed in June. Firefly announced that preparations were proceeding as planned, with the company reaffirming a Q4 2024 launch target in July. Environmental testing of the lander commenced in August at NASA’s Jet Propulsion Laboratory (JPL), ensuring the spacecraft's readiness for the rigors of spaceflight.

In November 2024, Firefly Aerospace formally announced that the Blue Ghost lander was fully prepared for launch, setting a mid-January 2025 launch date. On January 7, 2025, the company provided a precise launch time: 1:11 a.m. EST (06:11 UTC) on January 15, 2025. Payload encapsulation was completed on January 10, marking one of the final steps in the pre-launch sequence.

On January 15, 2025, the Blue Ghost lander successfully launched at 1:11:39 a.m. EST (06:11:39 UTC) aboard a SpaceX Falcon 9 Block 5 rocket. The mission also included Hakuto-R Mission 2 as a co-manifested payload.

Payloads

The mission is planned to land at Mare Crisium, a 500 km (310 mi) wide basin visible from Earth. Instruments will gather data to provide insight into the Moon's regolith – loose, fragmented rock and soil – properties, geophysical characteristics, and the interaction of solar wind and Earth's magnetic field, helping to prepare for human missions to the lunar surface.

The payloads, collectively expected to total 94 kg (207 lb) in mass, include:

The Regolith Adherence Characterization (RAC) will determine how lunar regolith sticks to a range of materials exposed to the Moon's environment during landing and lander operations. Components will be derived from the MISSE-FF facility currently on the International Space Station (ISS).
The Next Generation Lunar Retroreflectors (NGLR) will serve as a target for lasers on Earth to precisely measure the distance between Earth and the Moon. The retroreflector that will fly on this mission will also provide data that could be used to understand various aspects of the lunar interior and address fundamental physics questions.
The Lunar Environment Heliospheric X-ray Imager (LEXI), which will capture images of the interaction of Earth's magnetosphere with the flow of charged particles from the Sun, called the solar wind.
The Reconfigurable, Radiation Tolerant Computer System (RadPC) aims to demonstrate a radiation-tolerant computing technology. Due to the Moon's lack of atmosphere and magnetic field, radiation from the Sun will be a challenge for electronics. This investigation will also characterize the effects of radiation on the lunar surface.
The Lunar Magnetotelluric Sounder (LMS) is designed to characterize the structure and composition of the Moon's mantle by studying electric and magnetic fields. The investigation will make use of a flight-spare magnetometer. This device measures magnetic fields, originally made for the Mars Atmosphere and Volatile EvolutioN (MAVEN) spacecraft currently orbiting Mars.
The Lunar Instrumentation for Subsurface Thermal Exploration with Rapidity (LISTER) is designed to measure heat flow from the interior of the Moon. The probe will attempt to drill 2.13–3.05 m (7 ft 0 in – 10 ft 0 in) into the lunar regolith to investigate the Moon's thermal properties at different depths.
The Lunar PlanetVac (LPV) is designed to acquire lunar regolith from the surface and transfer it to other instruments that would analyze the material or put it in a container that another spacecraft could return to Earth.
Stereo CAmeras for Lunar Plume Surface Studies (SCALPSS 1.1) will capture video and still images of the area under the lander from when the engine plume first disturbs the lunar surface through engine shutdown. Long-focal-length cameras will determine the pre-landing surface topography. Photogrammetry will be used to reconstruct the changing surface during landing. Understanding the physics of rocket exhaust on the regolith and the displacement of dust, gravel, and rocks is critical to understanding how to avoid kicking up surface materials during the terminal phase of flight/landing on the Moon and other celestial bodies.
The Electrodynamic Dust Shield (EDS) will generate a non-uniform electric field using varying high voltage on multiple electrodes. This traveling field, in turn, carries away the particles and has potential applications in thermal radiators, spacesuit fabrics, visors, camera lenses, solar panels, and many other technologies.
The Lunar GNSS Receiver Experiment (LuGRE), which is based on GPS. LuGRE will continue to extend the reach of GPS signals and, if successful, be the first to discern GPS signals at lunar distances.

References

^ "Blue Ghost Component Graphic". Firefly Aerospace. January 14, 2025. Archived from the original on January 15, 2025.
Brett Tingley (January 7, 2025). "SpaceX launch of private Blue Ghost moon lander set for Jan. 15". Space.com. Retrieved January 9, 2025.
"Firefly Aerospace Completes Blue Ghost Lunar Lander Structure Ahead of Moon Landing for NASA". www.prnewswire.com (Press release). Retrieved May 13, 2024.
"Firefly Aerospace's Blue Ghost Lunar Lander is Assembled". October 16, 2023.
Foust, Jeff (May 20, 2021). "Firefly selects SpaceX to launch its lunar lander". SpaceNews. Retrieved May 22, 2021.
Firefly Aerospace (May 20, 2021). "Alpha rocket does not have the performance or payload volume needed to launch Blue Ghost – F9 does. Our future Beta launch vehicle will support Blue Ghost launch" (Tweet). Retrieved May 20, 2021 – via Twitter.
"Firefly Aerospace Completes Blue Ghost Lunar Lander Structure Ahead of Moon Landing for NASA". October 4, 2023.
Parsonson, Andrew (April 29, 2024). "Nammo UK Prepares to Deliver Engine for US Lunar Lander". European Spaceflight. Retrieved May 4, 2024.
"One step closer to launch and landing as our Firefly team installed Blue Ghost's main engine".
@Firefly_Space (July 30, 2024). "We're going to the Moon! As Blue Ghost gets ready to ship for final environmental testing, get a behind-the-scenes look of how we got here and the mission ahead. Stay tuned for more on Blue Ghost Mission 1 in the coming months ahead of the Q4 2024 launch" (Tweet). Retrieved October 2, 2024 – via Twitter.
Foust, Jeff (August 26, 2024). "Firefly Aerospace's lunar lander begins pre-launch environmental tests". SpaceNews. Retrieved August 27, 2024.
"Firefly Aerospace Blue Ghost Mission 1 to the Moon Readies for Launch". Firefly Aerospace. November 25, 2024. Retrieved November 30, 2024.
@Firefly_Space (January 7, 2025). "Buckle up! Our road trip to the Moon is set to launch at 1:11 a.m. EST on Wednesday, Jan. 15" (Tweet) – via Twitter.
Schnautz, Risa (January 10, 2025). "Blue Ghost Mission 1: Live Updates". Firefly Aerospace. Retrieved January 14, 2025.
^ "NASA Selects Firefly Aerospace for Artemis Commercial Moon Delivery in 2023" (Press release). NASA. February 4, 2021. Archived from the original on February 4, 2021. Retrieved March 5, 2021. This article incorporates text from this source, which is in the public domain.

External links

Official website

Artemis program

Missions

Uncrewed	Artemis I (2022) Peregrine Mission One (2024) IM-1 (2025) Blue Ghost Mission 1 (2025) IM-2 (2025)
Crewed	Artemis II (2026) Artemis III (2027) Artemis IV (2028) Artemis V (2030)

Agencies

Facilities

Rockets

Crewed spacecraft

Robotic spacecraft

Category

Lunar landing missions

Active

Crewed	none
Robotic	Chang'e 4 Chang'e 6 Blue Ghost Mission 1 Hakuto-R Mission 2

Past

Crewed	Apollo 11 12 14 15 16 17
Robotic	Chandrayaan-3 Chang'e 3 5 Luna 9 13 16 17 20 21 23 24 IM-1 EagleCam SLIM Surveyor 1 3 5 6 7

Failed

Planned

Artemis	Artemis III (2026) IV (2028) V (2030) VI (2031) VII (2032)
CLEP	7 (2026) 8 (2028)
CLPS	Blue Ghost M2 (2026) IM-2 (2025) IM-3 (2025)
Luna-Glob	Luna 27 (2028) 28 (2030)
Others	Beresheet 2 (SpaceIL, 2025) Hakuto-R M3 (ispace, 2026)

Proposed

CLPS	Redwire Draper Firefly Masten MoonEx OrbitBeyond McCandless

Spacecraft missions to the Moon

Exploration
programs

Active
missions

Orbiters	ARTEMIS CAPSTONE Chandrayaan-2 Chang'e 5-T1 Danuri Lunar Reconnaissance Orbiter Queqiao 1 and 2 Tiandu-1 2 ICUBE-Q
Landers	Chang'e 3 4 Blue Ghost Mission 1 Hakuto-R Mission 2
Rovers	Yutu-2 TENACIOUS
Flybys	ArgoMoon

Past
missions

Crewed landings	Apollo 11 12 14 15 16 17 (List of Apollo astronauts)
Orbiters	Apollo 8 10 Artemis I Chang'e 1 2 5 Chandrayaan-1 3 Clementine Explorer 35 49 GRAIL Hiten LADEE Longjiang-2 Luna 10 11 12 14 19 22 Lunar Orbiter 1 2 3 4 5 Lunar Prospector PFS-1 PFS-2 SMART-1 SELENE (Kaguya, Okina, Ouna)
Impactors	LCROSS Luna 2 Moon Impact Probe Ranger 4 6 7 8 9
Landers	Apollo Lunar Module ×6 Chang'e 5 6 Luna 9 13 16 17 20 21 23 24 Surveyor 1 3 5 6 7 Chandrayaan-3 EagleCam IM-1 SLIM
Rovers	Lunar Roving Vehicle Apollo 15 16 17 Lunokhod 1 2 Yutu Pragyan 2 3 LEV-1 LEV-2 (Sora-Q) Jinchan
Sample return	Apollo 11 12 14 15 16 17 Luna 16 20 24 Chang'e 5 6
Failed landings	Beresheet Emirates Lunar Mission Hakuto-R M1 Luna 5 7 8 15 18 25 OMOTENASHI Surveyor 2 4 Vikram Peregrine Mission One
Flybys	4M Apollo 13 Chang'e 5-T1 Geotail Galileo ICE Longjiang-1 Luna 1 3 4 6 LunaH-Map Lunar Flashlight Lunar IceCube LunIR Mariner 10 NEA Scout Nozomi Pioneer 4 Ranger 5 STEREO TESS WMAP Wind Zond 3 5 6 7 8 PAS-22

Planned
missions

Artemis	II (2026) III (2027) IV (2028) V (2030) Lunar Gateway
CLPS	IM-2 (2025) Lunar Trailblazer
Luna-Glob	26 (2027) 27 (2028) 28 (2030) 29 (2030s) 30 (2030s) 31 (2030s)
CLEP	Chang'e 7 (2026) 8 (2028)
Chandrayaan	4 (2027) 5 (LUPEX) (2028)
Others	Beresheet 2 (2025) ispace M3 (2026) Lunar Pathfinder (2026) DESTINY (2028) Cislunar Explorers (2020s) CU-E (2020s) MoonRanger (2020s) Argonaut M1 (2031) International Lunar Research Station (2030s)

Proposed
missions

Robotic	ALINA Artemis-7 Blue Moon BOLAS Garatéa-L ISOCHRON LunaNet Lunar Crater Radio Telescope McCandless Moon Diver
Crewed	DSE-Alpha Boeing Lunar Lander Lockheed Martin Lunar Lander Lunar Orbital Station

Cancelled /
concepts

Missions are ordered by launch date. Crewed missions are in italics.

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