Tag: south pole

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #June2024 | #嫦娥六号#Change6 South Pole-Aitken successfully Basin #LunarSampleReturnMission #DarksideOfTheMoon Chang’e 6  Finally returns home.. 

kevinjamesngLeave a comment

嫦娥六号  Change’ Six  CNSA China National Space Administration….  China’s Lunar Sample Lunar Return Mission  successfully returned home! ……At 14:07 Beijing Time  on June 25, 2024, the Chang’e 6 returner landed accurately in the designated area of ​​Siziwang Banner, Inner Mongolia, China, People’s Republic of China.  and worked normally, marking the complete success of the Chang’e 6 lunar exploration mission and the world’s first return of samples from the back of the moon

Returning to Earth today! 嫦娥六号 Completed orbital return unlocking and separation] At about 13:22, the Beijing Aerospace Flight Control Center injected high-precision navigation parameters into the Chang’e 6 orbiter and returner combination through the ground tracking and control station. After that, the orbiter and returner were normally unlocked and separated at an altitude of about 5,000 kilometers above the South Atlantic sea level, and the orbiter completed the orbital avoidance manoeuvre as planned….

嫦娥六号  successfully returned home! …….Today, the Chang’e 6 returner landed accurately in the designated area of ​​Siziwang Banner, Inner Mongolia, and worked normally, marking the complete success of the Chang’e 6 lunar exploration mission and the world’s first return of samples from the back of the moon…

At 17:27 on May 3rd Friday 2024  Beijing time CNSA –China National Space Administration, the Chang’e-6 probe was successfully launched by the Long March 5 Yao-8 carrier rocket from the Wenchang Space Launch Site in Hainan Province,  China, People’s Republic of China., and accurately entered the Earth-moon transfer orbit. The launch mission was a complete success. The Chang’e-6 probe has embarked on the world’s first return journey for sampling from the far side of the moon. The pre-selected landing and sampling area is the South Pole-Aitken Basin on the far side of the moon.

[ Chang’e 6 completes sampling and ascender takes off from the far side of the moon and enters the scheduled lunar orbit]

According to the National Space Administration, at  4th June 2024 7:38 Beijing time today, the Chang’e 6 ascender carrying lunar samples took off from the far side of the moon. After the 3000N engine worked for about 6 minutes, it successfully sent the ascender into the scheduled lunar orbit. From


[Xi Jinping sent a message on behalf of the CPC Central Committee, the State Council and the Central Military Commission to congratulate the successful completion of the Chang’e-6 lunar exploration mission]

Xinhua News Agency, Beijing, June 25 (Xinhua) Xi Jinping, General Secretary of the CPC Central Committee, President of the State and Chairman of the Central Military Commission, sent a message on behalf of the CPC Central Committee, the State Council and the Central Military Commission to congratulate the successful completion of the Chang’e-6 lunar exploration mission. The full text of the congratulatory message is as follows:

All comrades in the Chang’e-6 lunar exploration mission command and participating in the mission:

I am glad to hear that the Chang’e-6 lunar exploration mission has achieved a complete success. On behalf of the CPC Central Committee, the State Council and the Central Military Commission, I extend my warm congratulations and sincere greetings to you!

Chang’e-6 achieved the first return of samples from the back of the moon in human history, which is another landmark achievement in China’s construction of a space power and a science and technology power. Over the past 20 years, all comrades involved in the development and construction of the lunar exploration project have carried forward the spirit of lunar exploration, bravely climbed the peak of science and technology, achieved major achievements that have attracted worldwide attention, and embarked on a high-quality and high-efficiency lunar exploration path. The outstanding contributions you have made will be remembered forever by the motherland and the people!

I hope you will seize the opportunity, carefully carry out scientific research on lunar samples, continue to implement major aerospace projects such as deep space exploration, strengthen international exchanges and cooperation, and move forward courageously towards the goal of becoming a space power. Make new contributions to exploring the mysteries of the universe and enhancing human well-being, and make new contributions to comprehensively promoting the construction of a powerful country and the great cause of national rejuvenation with Chinese-style modernization!

Xi Jinping

June 25, 2024

At 14:07 on June 25, 2024, the Chang’e-6 returner accurately landed in the predetermined area of ​​Siziwang Banner in Inner Mongolia and worked normally, marking the complete success of the Chang’e-6 mission of the lunar exploration project and achieving the world’s first return of samples from the back of the moon. At about 13:20, the Beijing Aerospace Flight Control Center injected high-precision navigation parameters into the Chang’e-6 orbiter and returner combination through the ground measurement and control station. After that, the orbiter and returner unlocked and separated normally at about 5,000 kilometers above sea level in the South Atlantic Ocean, and the orbiter completed the orbit avoidance manoeuvre as planned. At about 13:41, the Chang’e-6 returner entered the Earth’s atmosphere for the first time over the Atlantic Ocean at a height of about 120 kilometers above the ground at a high speed close to the second cosmic speed (about 11.2 kilometers/second), and implemented its first aerodynamic deceleration. .

After descending to a predetermined altitude, the returner jumped upwards out of the atmosphere over the Indian Ocean, and began to glide down after reaching the highest point. After that, the returner re-enters the atmosphere and implements secondary aerodynamic deceleration. When it drops to an altitude of about 20 kilometers above the ground, the returner switches to the parachute opening attitude. At an altitude of about 10 kilometers, the return vehicle opened its parachute, completed the final deceleration and maintained a stable attitude, and then landed smoothly in the predetermined area. The launch site and recovery system technicians responsible for the search and recovery mission conduct returner searches based on the location information and action paths reported by the Beijing Center, discover the target in a timely manner, confirm that the returner status is normal, and carry out recovery work in an orderly manner as planned. After the final Chang’e-6 returner completes necessary ground processing, it will be airlifted to Beijing to open the cabin and remove the sample container and cargo. The National Space Administration will choose an opportunity to hold a handover ceremony to formally hand over lunar samples to the ground application system, and will subsequently carry out work related to sample storage, analysis and research. The Chang’e-6 probe was launched from the Wenchang Space Launch Site in China on May 3 and entered the Earth-moon transfer orbit. After orbit correction and near-lunar braking, the probe successfully entered a lunar orbit. After that, the probe experienced the separation of the lander and ascender assembly, and the orbiter and returner assembly. With the support of the Queqiao-2 relay satellite, the lander and ascender assembly carried out orbital descent and powered descent around the moon.

 On June 2, it accurately landed in the pre-selected area of ​​the South Pole-Aitken Basin on the far side of the moon and carried out sampling work. On June 4, the ascender was ignited for takeoff and accurately entered orbit. On June 6, it completed the rendezvous and docking with the orbiter and returner assembly and sample transfer. After that, it separated from the orbiter and returner assembly as planned and was controlled. The moon falls. After that, the orbiter and returner combination experienced 13 days of waiting around the moon. After completing two lunar-Earth transfer incidences and one orbit correction, the returner separated from the orbiter on June 25 and carried heavy samples from the back of the moon. Return to Earth. After the Queqiao-2 relay satellite successfully completes the Chang’e-6 mission, it will choose an opportunity to carry out scientific detection missions. The extreme ultraviolet camera, array neutral atom imager and Earth-Moon Very Long Baseline Interferometry (VLBI) test system it carries will Collecting scientific data from the moon and deep space…

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #June2024 | #嫦娥六号#Change6 South Pole-Aitken successfully Basin #LunarSampleReturnMission #DarksideOfTheMoon Chang’e 6  #ChineseFlag #ChinaFlag #PeoplesRepublicOfChina will #NeverFade Wuhan Textile University  China Aerospace Sanjiang Group…

kevinjamesngLeave a comment

At 17:27 on May 3rd Friday 2024  Beijing time CNSA –China National Space Administration, the Chang’e-6 probe was successfully launched by the Long March 5 Yao-8 carrier rocket from the Wenchang Space Launch Site in Hainan Province,  China, People’s Republic of China., and accurately entered the Earth-moon transfer orbit. The launch mission was a complete success. The Chang’e-6 probe has embarked on the world’s first return journey for sampling from the far side of the moon. The pre-selected landing and sampling area is the South Pole-Aitken Basin on the far side of the moon.

[ Chang’e 6 completes sampling and ascender takes off from the far side of the moon and enters the scheduled lunar orbit]

According to the National Space Administration, at  4th June 2024 7:38 Beijing time today, the Chang’e 6 ascender carrying lunar samples took off from the far side of the moon. After the 3000N engine worked for about 6 minutes, it successfully sent the ascender into the scheduled lunar orbit. From



June 2 to 3, Chang’e 6 successfully completed intelligent and rapid sampling in the South Pole-Aitken Basin on the far side of the moon, and packaged the precious lunar far side samples in the storage device carried by the ascender in a predetermined form. During the sampling and packaging process, researchers simulated the geographical model of the sampling area and simulated sampling in the ground laboratory based on the probe data transmitted back by the Queqiao-2 relay satellite, providing important support for sampling decisions and operations in various links.

The Chang’e-6 lunar flag display system was jointly developed by China Aerospace Sanjiang Group and Wuhan Textile University and other units. In response to the extreme environmental requirements of high and low temperature alternation, high vacuum and strong ultraviolet radiation in this mission, the lunar flag team of Academician Xu Weilin of the State Key Laboratory of New Textile Materials and Advanced Processing Technology of Wuhan Textile University..



selected basalt materials. Basalt fiber is a new type of inorganic environmentally friendly green high-performance fiber material. It is composed of oxides such as silicon dioxide, aluminum oxide, calcium oxide, magnesium oxide, iron oxide and titanium dioxide. China has listed basalt fiber as one of the four major fibers (carbon fiber, aramid, ultra-high molecular weight polyethylene, basalt fiber) for key development, and has achieved industrial production. Using natural basalt formed by volcanic eruptions as raw materials, it is crushed and put into a melting furnace, heated to a molten state of 1450~1500℃, and quickly drawn through a platinum-rhodium alloy drawing plate. This is how basalt fiber is made. When basalt fiber is manufactured, it has excellent high temperature resistance and thermal shock stability, and can remain unchanged at a temperature of 650°C. It also has durability, weather resistance, UV resistance, water resistance, and oxidation resistance comparable to natural basalt stone. 嫦娥六号…..

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #June2024 | #嫦娥六号#Change6 South Pole-Aitken successfully Basin #LunarSampleReturnMission #DarksideOfTheMoon Chang’e 6 completes sampling and ascender takes off from the far side of the moon and enters the scheduled lunar orbit …

kevinjamesngLeave a comment

At 17:27 on May 3rd Friday 2024  Beijing time CNSA –China National Space Administration, the Chang’e-6 probe was successfully launched by the Long March 5 Yao-8 carrier rocket from the Wenchang Space Launch Site in Hainan Province,  China, People’s Republic of China., and accurately entered the Earth-moon transfer orbit. The launch mission was a complete success. The Chang’e-6 probe has embarked on the world’s first return journey for sampling from the far side of the moon. The pre-selected landing and sampling area is the South Pole-Aitken Basin on the far side of the moon.

[ Chang’e 6 completes sampling and ascender takes off from the far side of the moon and enters the scheduled lunar orbit]

According to the National Space Administration, at 7:38 today, the Chang’e 6 ascender carrying lunar samples took off from the far side of the moon. After the 3000N engine worked for about 6 minutes, it successfully sent the ascender into the scheduled lunar orbit.

From June 2 to 3, Chang’e 6 successfully completed intelligent and rapid sampling in the South Pole-Aitken Basin on the far side of the moon, and packaged the precious lunar far side samples in the storage device carried by the ascender in a predetermined form. During the sampling and packaging process, researchers simulated the geographical model of the sampling area and simulated sampling in the ground laboratory based on the probe data transmitted back by the Queqiao-2 relay satellite, providing important support for sampling decisions and operations in various links.

Intelligent sampling is one of the core key links of the Chang’e 6 mission. The probe withstood the high temperature test on the far side of the moon, and collected lunar samples by drilling with a drill and taking samples from the surface with a robotic arm, realizing multi-point and diversified automatic sampling.

嫦娥六号 The lander and ascender took a group photo] On June 3, 2024, the “mobile camera” carried by Chang’e 6 moved autonomously and successfully took and sent back a group photo of the lander and ascender

The Chang’e-6 lander was equipped with a landing camera, panoramic camera, lunar soil structure detector, lunar mineral spectrometer and other payloads that were powered on normally and carried out scientific exploration as planned, playing an important role in scientific exploration tasks such as lunar surface morphology and mineral composition detection and research, lunar shallow structure detection, etc. Before the probe drilled and sampled, the lunar soil structure detector analyzed and judged the underground lunar soil structure in the sampling area, providing data reference for sampling. The international payloads

carried by the Chang’e-6 lander, such as the European Space Agency’s lunar surface negative ion analyzer and the French lunar radon gas detector, worked normally and carried out corresponding scientific exploration tasks. Among them, the French lunar radon gas detector was powered on during the Earth-Moon transfer, lunar orbit phase and lunar surface working phase; the European Space Agency’s lunar surface negative ion analyzer was powered on during the lunar surface working phase. The Italian laser corner reflector installed on the top of the lander became a position control point that can be used for distance measurement on the back side of the moon.

After the surface sampling was completed, the five-star red flag carried by the Chang’e-6 lander was successfully unfolded on the back side of the moon. This is the first time that China has independently and dynamically displayed its national flag on the back side of the moon. The national flag is made of new composite materials and special technology. Due to the different landing position on the moon, the Chang’e 6 national flag display system has been adaptively improved on the basis of the Chang’e 5 mission.

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #January2024| |#WenchangSpacecraftLaunchCenter #文昌航天發射場 #嫦娥六号; #Change6 arrives.. For the #SouthPole- #AitkenBasin #LunarSample return mission..

kevinjamesngLeave a comment

On the 29th September 2023 the嫦娥六号; Change 6 Lunar Sample Return Mission onboard the  Chang Zheng – Long March Five Carrier Rocket modified announcement by CNSA – China National Space Administration China Wenchang spaceport launch, Change lunar series  Lunar probes… The National Space Administration announced today that the development of the lunar exploration project Chang’e-6 mission is currently underway as planned and is planned to be launched around 2024. At the same time, our country is accelerating the scientific project of the International Lunar Research Station, and hopes that more international partners will join in to jointly expand the boundaries of human cognition, contribute to the peaceful use of space, and promote the construction of a community with a shared future for mankind.

On January 8th  2024 and 9th January, 2024, the detector products of the Chang’e-6 mission of the fourth phase of the lunar exploration project took the An-124 and Yun-20 aircraft respectively and arrived at Hainan Meilan International Airport. Transported by road to the Wenchang Space Launch Site in Hainan Province, China, People’s Republic of China.. Subsequent test preparations before launch will be carried out as planned.

The Chang’e-6 mission will break through key technologies such as lunar retrograde orbit design and control, lunar back intelligent sampling, and lunar back take-off and ascent, implement automatic sampling and return on the lunar back, and at the same time carry out scientific exploration and international cooperation in the landing area.

At present, the launch site facilities are in good condition and all preparations are being carried out in an orderly manner as planned. Chang’e-6 is scheduled to be launched in the first half of this year.

  According to arrangements, the Chang’e-6 mission will carry out sample returns from the far side of the moon. The 10 lunar sampling returns that humans have carried out so far are all located on the front side of the moon. The far side of the moon is generally older than the front side of the moon, and there is the Aitken Basin, one of the three major lunar terrestrial bodies, which has important scientific research value. The pre-selected landing area for the Chang’e-6 mission is located in the South Pole-Aitken Basin on the far side of the moon, with a view to discovering and collecting lunar samples from different regions and ages to enhance human understanding of the moon.
   According to arrangements, the Chang’e-6 mission will carry out sample returns from the far side of the moon. The 10 lunar sampling returns that humans have carried out so far are all located on the front side of the moon. The far side of the moon is generally older than the front side of the moon, and there is the Aitken Basin, one of the three major lunar terrestrial bodies, which has important scientific research value. The pre-selected landing area for the Chang’e-6 mission is located in the South Pole-Aitken Basin on the far side of the moon, with a view to discovering and collecting lunar samples from different regions and ages to enhance human understanding of the moon.

It is reported that in order to successfully complete the communication between the spacecraft on the far side of the moon and the earth, China, People’s Republic of China newly developed Queqiao-2 relay communication satellite is planned to be launched in the first half of 2024.

Images and visuals are from their Respectives CMS China Manned SpaceCNSA-China National Space Administration  

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BeltAndRoadinitiative #CLEP #July2022 | #VonKarmanCrater #LunarMission #Change4 #Yutu2 travelling 1239.88 meters on #LunaExploration reveal the secrets of the Antarctic-Aiken Basin ……

kevinjamesngLeave a comment

As of Month of 7th July 2022, The CNSA –China National Space Administration CLEP- China Lunar Exploration Program  Belt and Road Initiative Lunar Mission……Chang’e-4 with Yutu two the Lunar rover still working exploring more than moved more than 1239.88  meters on the other side of the moon on the 103 Kilometers Diameter Von Karman Crater in which is least than two length by length fifty five Kilometers Hong Kong –Macau- Zhuhai Bridges …. Working Exploring the Crater on the other side of the Moon Chang’e Luna…. Chang’e-4 completed the 44th day of work, and the results revealed the cause of the abnormal area of ​​​​the Moon’s South Pole-Aiken ….composition travelling The “Yutu 2” lunar rover and lander of the Chang’e The total mileage of the lunar rover on the far side of the moon is 1239.88 meters

In which Chang’e-4 research results reveal the secrets of the Antarctic-Aiken Basin The cause of the abnormal area of ​​composition…..

The South Pole-Aiken Basin is the largest impact basin on the Moon, with a diameter of over 2,400 kilometers. The study of the South Pole-Aiken Basin is of great significance for revealing the origin of the lunar asymmetry, the impact process, the early evolution process and the composition of the deep material. Orbital remote sensing observations show that there is a compositional anomaly in the center of the Antarctic-Aiken Basin. The planetary science team of Shandong University analyzed and interpreted the in-situ visible and near-infrared spectral data of the Yutu-2 lunar rover and found that the lunar crust is the Antarctic-Aiken composition anomaly. The main material source provides important constraints for the future exploration of materials in the Antarctic-Aiken Basin and even the deep parts of the moon.


​The main material components on the lunar The material composition at the bottom of the South Pole-Aiken Basin is abnormal, and the content of mafic silicate minerals and iron is significantly higher than that in the peripheral area of ​​the basin (Figure 1).

Figure 1. The distribution of iron and pyroxene content inside and outside the Antarctic-Aiken Basin

Most of the previous studies on the material composition of the Antarctic-Aiken Basin only focused on mafic minerals. Due to the anomalous characteristics of mafic in this region, there has even been a debate about whether the lunar mantle is peridotite or pyroxene. Although according to the lunar magma ocean hypothesis, olivine and pyroxene are the main minerals of the lunar mantle, the plutonic magma intrusion after the formation of the lunar crust can also form rocks rich in olivine or pyroxene in the lunar crust, so olivine is enriched Or pyroxene does not serve as evidence of origin from the lunar mantle. So far, humans have not obtained samples from the Antarctic-Aiken Basin and returned to Earth, and their trace elements and isotopic characteristics cannot be known. Among the material composition information available through remote sensing or in situ detection, the plagioclase content also distinguishes crust-derived and mantle-derived rocks. key indicators.

Figure 2. Mineral composition and source reservoir of Chang’e-4 landing area

​The content of plagioclase in the material of the Antarctic-Aiken composition anomaly area sputtered by the Finsen
Numerical simulation studies believe that during the excavation process of the South Pole-Aiken impact, the lunar crust has been completely stripped, but in the subsequent transformation stage, the collapse of the instantaneous crater wall may cause the lunar crustal material to slip off the bottom of the basin. In addition, other basin impact events after the Antarctic-Aiken impact event also produced a backfilling effect on the bottom of the Antarctic-Aiken Basin, and the exposed lunar mantle material or impact melting products during the formation of the basin is likely to have been diluted by the lunar crust material. Mineralogical and geochemical unmixing analysis results show that the lunar soil on the surface of the anomalous area is composed of about 70% of the lunar crust material and about 30% of the material enriched in iron and incompatible elements.

The first author of this research is postdoctoral fellow Chen Jian of Shandong University, and the corresponding author is Professor Ling Zongcheng, head of the planetary science team of Shandong University and senior researcher of the Center for Excellence in Comparative Planetology, Chinese Academy of Sciences. It was published in The Astrophysical Journal Letters, an international astronomy journal …..

Images and visuals are from their Respectives source CLEP – China Lunar Exploration Project