Chinese Lunar Exploration Program

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Timeline of Chinese Lunar Exploration(CLEP)

2007 Chang'e 1 Lunar orbiter
2010 Chang'e 2 Lunar orbiter & Asteroid 4179 Toutatis flyby
2013 Chang'e 3 Lunar lander & Yutu-1 rover
2014 Chang'e 5T1 Lunar flyby & Earth re-entry
2018 Queqiao 1 Earth-Moon L2 point orbiter
2018 Longjiang 1/2 Two lunar orbiters(Longjiang 1 orbit insertion failure)
2018 Chang'e 4 Lunar lander & Yutu-2 rover(on the far side of the Moon)
2020 Chang'e 5 Lunar sample return
2024 Queqiao 2 Lunar orbiter
2024 Tiandu Two lunar orbiters
2024 DRO A/B Two lunar orbiters(launch failure)
2024 Chang'e 6 Lunar sample return(from the far side of the moon)
2026 Chang'e 7 Lunar orbiter & lander & rover & hopper
2028 Chang'e 8 Lunar lander & rover & hopper & robot
2030 Crewed lunar landing
2030-2035 ILRS
 
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skywatcher

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Highlight moments of Chang'e 5 lunar sample return revisit(1~3 Dec 2020) ahead of Chang'e 6 landing
i_f25.png


1.Drilling and collecting samples on lunar surface

2.Lifting off from lunar surface

3.Lunar orbit automatic docking and sample transfer
 

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Flight sequence of Chang'e 6
View attachment 255560
Chang’e-6 set for weekend landing attempt as sun rises over Apollo crater
Andrew JonesMay 29, 2024

HELSINKI — Chang’e-6 is set to make its lunar landing attempt this weekend, in what will be a critical moment in China’s mission to collect the first samples from the far side of the moon.

Chang’e-6 launched May 3 and entered lunar orbit just over four days later. Since then it has been waiting for optimal conditions for its landing attempt. The farside of the moon, never visible from Earth, holds keys to scientific mysteries relating to the moon’s history and composition.

The mission is targeting a landing in the southern portion of Apollo crater within the vast South Pole-Aitken basin. The sun began to rise over the crater on the lunar far side early May 28.

Landing is now set for approximately 8:00 p.m. Eastern Saturday, June 1 (0000 UTC June 2), according to the European Space Agency (ESA), which is involved via a payload developed in Sweden.

The Chang’e-6 lander module will separate from the mission orbiter in lunar orbit in preparation for descent. The landing is timed according to suitable lighting levels on the surface and the lander’s orbit.

If successful, the lander will go through initial checks and setup. It will then begin drilling and scooping up materials from the surface. These samples, expected to weigh up to 2,000 grams, will be loaded into an ascent vehicle. The ascender will then launch the precious cargo back into lunar orbit for rendezvous and docking with the orbiter. Surface operations will last about 48 hours.

All aspects of Chang’e-6 have been planned and timed exquisitely in order for the mission to have a chance at success. Chinese scientists are excited about the prospects for analyzing the samples, if they are successfully delivered to Earth around June 25.

“I have been analyzing the scientific data of the Chang’e-4 mission that landed on the far side of the moon, and I am constantly excited to have new findings from the ongoing rover data. Therefore, I am particularly excited about the Chang’e-6 mission” Xu Yi, an assistant professor at the Macau University of Science and Technology, told SpaceNews.

“The reasons for the asymmetry in the scale of volcanic activity between the lunar nearside and farside are still subject to different hypotheses. Chang’e-6 will probably collect lunar samples from various sources, including products of local volcanic activity. Dating and compositional analysis of these samples will provide more ground truth information about volcanic activity on the far side.”

Chang’e-6 spacecraft and payloads
The Negative Ions at the Lunar Surface (NILS) payload developed by the Swedish Institute of Space physics and the Detection of Outgassing RadoN (DORN) instrument from France will collect data during the lander’s operational period on the surface. An Italian passive laser retro-reflector is aboard the lander, which is also carrying a small rover. The lander will then suffer damage from the launch of the ascent module, likely ending surface operations.

Chang’e-6 also carried a small, jointly developed Pakistan-Chinese university satellite. Icube-Q captured images of the moon and sun once released into lunar orbit.

Due to the far side of the moon being permanently out of view from Earth, direct communication is impossible. To overcome this, the mission is supported by the Queqiao-2 satellite. That spacecraft is operating in a specialized lunar orbit. Its role is to bounce communications between Chang’e-6 on the far side and ground stations on Earth.

Based on the 2020 Chang’e-5 nearside sample return mission, the ascender and orbiter will likely rendezvous and dock around two days after launch. The ascender will be discarded a further couple of days later. The orbiter would then prepare to leave lunar orbit at a calculated time. It would then release a reentry capsule just ahead of its return to Earth, around June 25.

Chang’e-5 collected 1,731 grams of samples, down from the expected 2,000 grams due to a drilling issue. The samples have revealed a number of insights into the moon, its composition and its history. Samples were first made available to Chinese institutions, but access has been expanded to international scientists.

Chang’e-6 is part of China’s broader lunar goals. The country will follow up with two missions to the south pole of the moon. These are Chang’e-7 in 2026 and Chang’e-8 around 2028. The country aims to launch its first crewed lunar mission by 2030.

Both sets of missions are part of a plan to establish a permanent lunar base. This project is known as the International Lunar Research Station (ILRS) program, planned for the 2030s. A number of countries and organizations have signed up to the project.
 

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Chang’e-6 lands on far side of the moon to collect unique lunar samples
Andrew Jones June 1, 2024

HELSINKI — China’s Chang’e-6 mission lander made a successful soft landing on the far side of the moon late Saturday and will soon begin collecting unique lunar samples.

The Chang’e-6 lander made a soft landing at 6:23 p.m. Eastern June 1 (2223 UTC), the China National Space Administration (CNSA) announced shortly after the event. The lander targeted a southern portion of Apollo crater within the South Pole-Aitken (SPA) Basin on the lunar far side.

The landing is a critical step towards bringing unique and scientifically invaluable lunar samples to Earth for analysis. U.S. decadal surveys have highlighted an SPA sample return as a highest priority science objective.

The Chang’e-6 lander used a variable 7,500-newton-thrust engine to slow its velocity in lunar orbit and begin its descent. The lander was scheduled to make rapid positional adjustments at an altitude of around 2.5 kilometers above the lunar surface before continuing its descent. The spacecraft entered a hovering phase for fine hazard avoidance at approximately 100 meters above the surface. It used light detection and ranging (LiDAR) and optical cameras to find a safe landing spot.

Chang’e-6 is China’s fourth successful lunar landing from four attempts, and the second on the far side of the moon. It is also the third lunar landing in 2024. It follows Japan’s SLIM in January and Intuitive Machines’ IM-1 Odysseus lander in February.

Teams will now begin initial checks of the lander’s systems and soon begin collecting samples. The lander will collect up to 2,000 grams of samples, using a scoop to grab surface regolith and a drill for subsurface material. Samples are expected to be sent into lunar orbit within around 48 hours. Chinese space authorities have yet to publish a timeline for the mission and its steps, however.

There are complex stages remaining before samples can be returned to Earth for analysis. Yet the success of this critical stage of the mission will be celebrated.

“I have been analyzing the scientific data of the Chang’e-4 mission that landed on the far side of the moon, and I am constantly excited to have new findings from the ongoing rover data. Therefore, I am particularly excited about the Chang’e-6 mission” Xu Yi, an assistant professor at the Macau University of Science and Technology, told SpaceNews earlier in the week.

“The reasons for the asymmetry in the scale of volcanic activity between the lunar nearside and farside are still subject to different hypotheses. Chang’e-6 will probably collect lunar samples from various sources, including products of local volcanic activity. Dating and compositional analysis of these samples will provide more ground truth information about volcanic activity on the far side.”

Samples could contain material ejected from the lunar mantle. These would provide insights not only into the depths of the moon, its composition and its evolution, but also for the Earth the wider history of the early solar system.

Chang’e-6 next steps
Following sampling, an ascent vehicle will be expected to launch itself and the samples from atop the Chang’e-6 lander. The launch is expected within around 48 hours of landing, taking the samples into lunar orbit. The ascender will need to rendezvous and dock with the waiting Chang’e-6 orbiter.

Samples would then be transferred to a reentry capsule and ahead of the journey back to Earth. Departure from the moon will take place at a calculated time. The orbiter would then release a reentry capsule just ahead of its return to Earth, around June 25. The capsule will first bounce off the atmosphere once and target a landing in grasslands of Inner Mongolia. Samples would then be transferred to special facilities for handling, analyzing and storing the lunar material.

The Chang’e-6 mission also uses support from the Queqiao-2 relay satellite. This allows communications with the otherwise hidden far side of the moon.

Lunar rover, science payloads
Beyond the precious samples, the Chang’e-6 lander also carries further payloads for conducting a range of science objectives. A small rover is expected to be deployed onto the surface for short term operations.

International payloads include the Negative Ions at the Lunar Surface (NILS) payload developed by the Swedish Institute of Space physics and the Detection of Outgassing RadoN (DORN) instrument from France. An Italian passive laser retro-reflector is aboard the lander. The lander will then suffer damage from the launch of the ascent module, likely ending surface operations.

Chang’e-6 is part of China’s broader lunar program. The country will follow up with two missions to the south pole of the moon. These are Chang’e-7 in 2026 and Chang’e-8 around 2028. The country aims to launch its first crewed lunar mission by 2030.

Both sets of missions are part of a plan to establish a permanent lunar base. This project is known as the International Lunar Research Station (ILRS) program, planned for the 2030s. A number of countries and organizations have signed up to the project.

Mission NameLaunch DateMission TypeObjectivesOutcome
Chang’e 1October 24, 2007OrbiterLunar mapping, study lunar surface and environmentSuccessful; created a 3D map of the moon.
Chang’e 2October 1, 2010OrbiterHigh-resolution imaging of lunar surface, study of Lagrange Point L2Successful; achieved its objectives.
Chang’e 3December 1, 2013Lander and RoverSoft landing on the moon, surface exploration with the Yutu roverSuccessful; Yutu rover lost mobility but operated for 31 months.
Chang’e 5-T1October 23, 2014Test FlightTest re-entry technology for Chang’e 5 sample return missionSuccessful; validated re-entry capsule design.
Chang’e 4December 7, 2018Lander and RoverFirst soft landing on the far side of the moon, surface exploration with Yutu-2 roverSuccessful; ongoing mission.
Chang’e 5November 23, 2020Near side sample Return MissionCollect lunar samples and return them to EarthSuccessful; returned 1.731 kg of samples.
Chang’e 6 May 3, 2024Far side sample Return MissionCollect samples from the far side of the moon and return them to EarthOngoing mission.
Chang’e 7 (planned)NET 2026Orbiter, Lander, Rover, HopperComprehensive lunar exploration including polar regionsPlanned mission.
Chang’e 8 (planned)NET 2028Technology DemonstrationTest key technologies for lunar base constructionPlanned mission
 

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Chang'e 6 reentry capsule is very similar to Chang'e 5 reentry capsule

Chang'e 5 reentry capsule in 2020
00686eaKgy1glqndluo2qj30zk0npqmv.jpg
 

skywatcher

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Chang'e 6 ascender lift off from the Moon
Very similar to moment of Chang'e 5 ascent in 2020
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