Tag: astronomy and space

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI June2024 |#西昌衛星發射中心 #XichangSatelliteLaunchCenter – #AstronomySatellite #Satellites  Sino-French #SVOM Space-based Multi-band Astronomical Variable Object Monitor launched  with advance #ChangZheng2C #LongMarch2C CarrierRocket ..  #ASummary

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On the 22nd June 2024 schedule to launch  CNSA _China National Space Administration -China – People’s Republic of China 1500 Hours Hong Kong –Beijing Time China- People’s Republic of China…. at the Xichang Satellite Launch Center, Sichuan Province.

Long March 2C rocket successfully launches Sino-French astronomical satellite…… On the occasion of the 60th anniversary of the establishment of diplomatic relations between China and France, at 15:00 on June 22, the Long March 2C carrier rocket, developed by the First Academy of China Aerospace Science and Technology Corporation, ignited and took off from the Xichang Satellite Launch Center, and then successfully sent the Sino-French astronomical satellite into the predetermined orbit. The launch mission was a complete success.


The Sino-French Astronomical Satellite is a space science satellite jointly demonstrated and developed by China and France. It is the satellite with the strongest multi-band comprehensive observation capability of gamma-ray bursts in the world to date, and will play an important role in scientific discoveries in the field of space astronomy such as gamma-ray burst research. The Xi’an Branch of the Fifth Academy of China Aerospace Science and Technology Corporation undertook the development task of the satellite’s data transmission subsystem.


This launch is the 525th launch of the Long March series of carrier rockets

The CATCH project of the Hunter Constellation for Tracking All-Variable Sources was proposed by the Institute of High Energy Physics of the Chinese Academy of Sciences. It aims to conduct multi-target, uninterrupted, and multi-parameter observations of massive variable sources. The CATCH-1 satellite is the first test satellite of the constellation. It is developed by the Microsatellite Innovation Institute of the Chinese Academy of Sciences. Its main task is to conduct in-orbit verification of space technologies such as lightweight X-ray focusing mirrors, silicon drift detector systems, remote sensing cameras, satellite rapid steering capabilities, high-precision extension mechanisms, and intelligent control. It also cooperates with the observation and early warning of the Sino-French astronomical satellite SVOM to quickly carry out opportunity observations and promote subsequent cooperation between China and France. This mission is the 56th satellite launch mission of the Microsatellite Innovation Institute of the Chinese Academy of Sciences. So far, it has successfully launched 105 satellites covering communications, navigation, remote sensing, science, micro-nano and other fields.

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

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI June2024 |#西昌衛星發射中心 #XichangSatelliteLaunchCenter – #AstronomySatellite  Sino-French #SVOM Space-based Multi-band Astronomical Variable Object Monitor schedule to be launch with advance #ChangZheng2C #LongMarch2C CarrierRocket ..  #ASummary

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On the 22nd June 2024 schedule to launch  CNSA _China National Space Administration -China – People’s Republic of China 1500 Hours Hong Kong –Beijing Time China- People’s Republic of China…. at the Xichang Satellite Launch Center, Sichuan Province.

The Sino-French SVOM mission (Space-based Multi-band Astronomical Variable Object Monitor) is scheduled to be launched at 15:00 on June 22 at the Xichang Satellite Launch Center using a Long March 2C carrier rocket. The satellite’s target operating orbit is a low-Earth orbit with an inclination of 30 degrees and an altitude of 625 kilometers. The total weight of the satellite is 930 kg, and the payload weighs 450 kg.



The mission includes 4 main instruments, 2 of which are French (ECLAIR and MXT) and 2 are Chinese (GRM and VT):
– The ECLAIR telescope is used to detect and locate gamma-ray bursts in X-rays and low-energy gamma rays (from 4 to 250 keV).
– The MXT telescope (Microchannel X-ray Telescope) is used to observe gamma-ray bursts in high energy
– The VT telescope (Visible Light Telescope) operates in the visible light region and is used to detect and observe visible light emissions immediately after gamma-ray bursts.
The total weight of the satellite is 930 kg, and the payload is 450 kg. It will be placed in a low Earth orbit with an inclination of 30 degrees, an altitude of 625 km and an orbital period of 96 minutes.



Observations in space will be complemented by a large ground segment, which includes:
– A wide field camera GWAC (Ground-based Wide Angle Camera) for studies from the ground in the visible light region, detecting the prompt emission of part of the burst – A GFT (Ground Tracking
Telescope) robotic telescope to precisely measure the coordinates of the gamma-ray burst.

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…

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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 …

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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 |#WenchangSpacecraftLaunchCenter #文昌航天發射場 #BRI #June2024 | #嫦娥六号#Change6 South Pole-Aitken successfully landed Basin #LunarSampleReturnMission #DarksideOfTheMoon …

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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 successfully landed in the South Pole-Aitken Basin on the far side of the moon] According to the National Space Administration, at 06:23:15:861

Beijing time today, the Chang’e-6 lander and ascender combination, supported by the Queqiao-2 relay satellite, successfully landed in the pre-selected landing area of ​​the South Pole-Aitken Basin on the far side of the moon. At 6:09 on June 2, the Chang’e-6 lander and ascender combination began to implement power descent, and the 7500 Newton variable thrust main engine was turned on. During this period, the combination made rapid attitude adjustments and gradually approached the lunar surface. After that, obstacles were automatically detected through the visual autonomous obstacle avoidance system, and a visible light camera was used to select a rough safe point based on the brightness of the lunar surface. It hovered 100 meters above the safe point, and laser three-dimensional scanning was used to take precise photos to detect obstacles on the lunar surface. Finally, the landing point was selected and a slow vertical descent began. When it was about to reach the lunar surface, the engine was shut down, and the buffer system was used to ensure that the combination reached the lunar surface in a free fall manner, and finally landed smoothly in the South Pole-Aitken Basin on the far side of the moon.

According to the China Academy of Space Technology, Chang’e-6 is one of the most complex spacecraft systems developed by China so far. The propulsion subsystem developed by the Sixth Academy provides it with the orbiter propulsion subsystem, lander propulsion subsystem and ascender propulsion subsystem. They are composed of 3 orbit control engines, 74 attitude control engines and more than 200 supporting single units such as tanks, gas cylinders, valves, circuit boxes, pressure sensors, etc. Among them, 1 7500N variable thrust engine is used for a smooth soft landing on the moon, and 2 3000N engines are used for the probe’s near-moon braking “in-orbit braking” and lunar takeoff. With their help, the Chang’e-6 probe can complete a series of “difficult actions” in space on its own .

The payload carried by the Chang’e-6 lander will work as planned and carry out scientific exploration missions. The international payloads of the Chang’e-6 mission, the European Space Agency’s lunar surface negative ion analyzer and the French lunar radon detector, are about to start working, and the Italian laser corner reflector has been deployed.

Since the Chang’e-6 probe was launched into orbit on May 3, 2024, it has successively experienced the processes of earth-moon transfer, near-moon braking, circumlunar flight, landing and descent. The Chang’e-6 probe consists of an orbiter, a returner, a lander and an ascender. On May 30, the lander and ascender combination and the orbiter and returner combination were separated in orbit. After the lander and ascender combination lands successfully, the lander will conduct status checks and settings such as the deployment of solar panels and directional antennas under ground control via the Queqiao-2 relay satellite, and then officially begin sampling work on the far side of the moon, which will last about two days. The lunar soil samples and lunar surface rocks will be collected by drilling with a drill and by using a robotic arm to achieve multi-point and diversified automatic sampling. At the same time, scientific explorations such as on-site investigation and analysis of the landing area on the far side of the moon and analysis of the lunar soil structure will be carried out to deepen the research on the origin and evolution history of the moon.

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