Category: astronomy

#MadeInChina #中國製造 |#LandSpace #蓝箭航天#July2023 | #BlueArrowAerospace #Suzaku2 #CarrierRocket #Suzaku2  Yao 2 #CarrierRocket from Jiaxing rocket manufacturing base to #酒泉衛星發射中心#JiuquanSatellitelaunchCentre schedule to launch in 12th July 2023  #AGallery

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LandSpace 蓝箭航天 One of sixty Chinese private space Carrier Rocket Companies in China-People’s Republic of China…   On the occasion of the centenary of the founding of the party, the first phase of the Jiaxing LandSpace Blue Arrow Aerospace Center,   located in VIC International Plaza, No. 13 Ronghua South Road, Yizhuang Economic and Technological Development Zone, Beijing China – People’s Republic of China…. The company located in a gathering place for the aerospace industry chain laid out in Zhejiang, was completed and will soon be put into use. Established mass production capacity for medium and large rockets, and completed the first phase of Jiaxing Blue Arrow Space Center…. Blue Arrow Aerospace Technology Co., Ltd. (Blue Arrow Aerospace) is a leading domestic commercial company for the creation and operation of aerospace transportation systems, established in June 2015, a national high-tech enterprise, Member of the International Astronautical Federation (IAF). Guided by the national strategy and guided by market demand, Blue Arrow Aerospace is committed to developing a series of medium and large launch vehicles with liquid oxygen methane as propellant, providing cost-effective and highly reliable launch services for the global market.

LandSpace Blue Arrow Aerospace’s Suzaku-2 Yao-2 carrier rocket is currently scheduled to be launched at station 96 of the Jiuquan Satellite Launch Center in China on the afternoon of July 12, 2023!

This launch mission will verify the independent development capability of the entire system of the Suzaku-2 liquid launch vehicle and challenge the world’s first orbital liquid oxygen methane rocket. It is of milestone significance.

On the  4th May 2023酒泉衛星發射中心 Jiuquan Satellite Launch Center LandSpace Blue Arrow Aerospace Center,   LandSpace 蓝箭航天Suzaku-2 Yao-2  Carrier rocket successfully arrived at Jiuquan Satellite Launch Center Blue Arrow Aerospace Rocket Launch Site The Suzaku-2 Yao-2  Carrier rocket set off from the Jiaxing rocket manufacturing base of LandSpace Blue Arrow Aerospace Center,   LandSpace 蓝箭航天on May 4, 2023, passing through dozens of provinces City, after more than 3,700 kilometers and a total of 9 days, it successfully arrived at the Jiuquan Satellite Launch Center Blue Arrow Space Rocket Launch Site on May 12, 2023.

Members of the Suzaku No. 2 Carrier Rocket also its No. 2 test team also rushed to Jiuquan from various places to join forces with the rocket, and began to start various preparations before unloading and hoisting the sub-stage rocket body and testing in the technical area.

The Suzaku-2 Yao 2 Carrier Rocket is scheduled to go around in mid-to-late June 2023 the latest news; Blue Arrow Aerospace plans to conduct a flight test of the Suzaku-2 Yao-2 rocket at the Jiuquan Satellite Launch Center in mid-to-late June. After successful launch, it will become the world’s first liquid oxygen methane rocket successfully entered orbit!

Images and visuals are from their Respectives.

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #July2023 |#CASC  #中國航天#GroundStation China Aerospace’s first “ground space station” has been built, which can simulate the environment of the moon and Mars…. #中國航天科技集團公司

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During the Month of June 2023, CASC 中國航天 China Aerospace Science and Technology Corporation, China Aerospace’s first “ground space station” has been built, which can simulate the environment of the moon and Mars! Looking at the northeast corner of the motherland, a space environment ground simulation device called “ground space station” was officially completed not long ago, and it has entered the trial operation stage. Many indicators have reached the world’s leading level.

As the first large-scale scientific device in my country’s aerospace field, the “Ground Space Station” is the first comprehensive research device in the world that has the most comprehensive environmental factors and can realize the study of multi-scale and cross-scale environmental effects. Contribute wisdom and strength.

The “Ground Space Station” is located in the Science and Technology Innovation City of Harbin New District, Heilongjiang Province, China, People’s Republic of China and is jointly constructed by Harbin Institute of Technology and China Aerospace Science and Technology Corporation. In the construction park, there are four experimental buildings of “one large and three small”, the “one large” refers to the space comprehensive environmental experiment building, and the “three small” refers to the space plasma science experiment building, the space magnetic environment science experiment building and the animal training room .

According to the design plan, the “ground space station” can simulate nine types of space environmental factors, including vacuum, high and low temperature, charged particles, electromagnetic radiation, space dust, plasma, weak magnetic field, neutral gas, and microgravity, and can explain the impact of the space environment on materials. , Devices, systems and living organisms, the influence rules and mechanism of action.

Compared with moving experimental instruments and equipment into space, the “ground space station” can not only save costs and reduce potential safety hazards, but also set specific environmental factors according to scientific problems and engineering needs, and conduct repeated verifications without time and space constraints, thus Create safer and more convenient experimental conditions and scientific research methods.

“In the future, many experiments that need to be carried out in space can be completed on the ground.” Yan Jihong, deputy dean of the Institute of Space Environment and Physical Science of Harbin Institute of Technology, said that this is the dream of scientists.

Figure 1: Effect drawing of space environment ground simulation device

Figure 2: Lunar dust cabin of space environment ground simulation device

Figure 3: The space plasma environment simulation and research system of the space environment ground simulator

Figure 4: The Martian Dust Chamber of the Space Environment Ground Simulator

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

#MadeInChina #中國製造| #ChinaAcademyOfScience #五百米口径球面射电望远镜 #FAST #June2023 | Five-hundred-meter Aperture Spherical #RadioTelescope #RadioAstronomy # Tianyan #天眼 | detect key evidence of the existence of nanohertz gravitational waves…..

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The CAS Chinese Academy of Sciences The Five-hundred-meter Aperture Spherical radio Telescope, nicknamed Tianyan, is a radio telescope located in the Dawodang depression, a natural basin in Pingtang County, Guizhou, southwest China. FAST has a 500 m diameter dish constructed in a natural depression in the landscape Observatory in Qiannan Buyei and Miao Autonomous Prefecture, China, People’s Republic of China …

The construction of the 500-meter-aperture spherical radio telescope started on March 25, 2011 ; the completion and launching ceremony was held on September 25, 2016, and the technological infrastructure entered trial operation and trial commissioning; on January 11, 2020 It has passed the national inspection and acceptance work in China and is officially open for operation .

The 500-meter-aperture spherical radio telescope has created a new model for building giant telescopes. It has built a radio telescope with a reflective surface equivalent to 30 football fields. The sensitivity is more than 2.5 times that of the world’s second largest telescope, which greatly expands human vision and is used for exploration the origin and evolution of the universe 

中国天眼有新发展 – 中国天眼查询nanohertz gravitational wave breakthrough ] Searching for nahertz gravitational waves is one of the focal issues in the international physics and astronomy fields. A Chinese research team recently used the “China Sky Eye” FAST to detect key evidence of the existence of nanohertz gravitational waves, which is an important breakthrough in the search for nanohertz gravitational waves. This discovery marks that my country’s nanohertz gravitational wave detection and research have simultaneously reached the world’s leading level, which is of great significance for understanding supermassive black holes, the history of galaxy mergers, and the formation of large-scale structures in the universe.

中国天眼Discovery of key evidence for the existence of nanohertz gravitational wave “China Sky Eye” (FAST) ushered in a major breakthrough again. Using FAST observation data, the Chinese Pulsar Timing Array (CPTA) research team found key evidence of the existence of nanohertz gravitational waves, indicating that my country’s research on nanohertz gravitational waves has reached the leading level in synchronization with the world. Relevant research results were published online in Astronomy and Astrophysics Research on June 29.

The nanohertz gravitational wave is a kind of gravitational wave with very low frequency, and the gravitational wave is caused by the disturbance of the surrounding space-time caused by the accelerating mass object. The detection of gravitational waves with a frequency as low as nanohertz will help astronomers understand the origin of the structure of the universe. It will also help physicists to detect the growth, evolution and merger process of the most massive celestial body in the universe, that is, the supermassive black hole. Gain insights into the fundamental physics of spacetime.



At present, the research on nanohertz gravitational waves has become one of the focuses of international competitions in the fields of physics and astronomy. Theory predicts that nanohertz gravitational waves are mainly produced by the merger of supermassive black holes. The North American Nahertz Gravitational-Wave Observatory, the European Pulsar Timing Array and the Australian Parkes Pulsar Timing Array have each carried out 20-year-long Nahertz gravitational-wave searches.

However, since the frequency of nanohertz gravitational waves is extremely low, the period lasts for several years, and its wavelength can reach several light-years, its detection is extremely challenging. The long-term timing observation of a group of millisecond pulsars with extremely regular rotation using a large radio telescope is the only known detection method for nanohertz gravitational waves.

In this study, the CPTA team used FAST to conduct long-term systematic monitoring of 57 millisecond pulsars, and formed these millisecond pulsars into a galaxy-scale gravitational wave detector to search for nanohertz gravitational waves. Based on independently developed software, the team conducted an in-depth analysis of the data collected by FAST with a time span of 3 years and 5 months, and found a nanohertz at a confidence level of 4.6 sigma (false positive rate is less than 1 in 500,000). Key evidence for a quadrupole-related signal characteristic of gravitational waves.

However, due to the short observation time, the researchers are still unable to determine the main physical source of the nanohertz gravitational waves.

It is worth mentioning that the European Pulsar Timing Array-India Pulsar Timing Array, the North American Nahertz Gravitational-Wave Observatory and the Australian Parkes Pulsar Timing Array and other pulsar timing array cooperation groups also announced similar the result of. “The four international teams independently obtained the key evidence for the existence of nanohertz gravitational waves, which allowed the research results to be mutually verified and further improved the accuracy of this result,” Li Kejia said.

He Zishan, chair professor of Peking University and academician of the American Academy of Arts and Sciences, believes that this major scientific breakthrough has a profound impact on the evolution of galaxies and the study of supermassive black holes, and also opens a new window for gravitational wave astrophysics…

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#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #June2023 | #天宫#Tiangong #ChinaSpaceStation #CMS #ChinaMannedSpace #神舟十六号 #Shenzhou16 Super awesome stunningly #EarthViews from the #TianheCoreModule

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On the 30th  May 2023 clear 0931 Hours Morning Hong Kong SAR- Beijing time , the Belt and Road Initiative CNSA –China National Space Administration  from Jiuquan Satellite Launch Center – Inner Mongolia –China – People’s Republic of China deployment of  the Chang Zheng –   The Chang Zheng – Long March 2F Yao 16 –Shenzhou 16  carrier rocket.. On which Takionauts Jing Haipeng, Zhu Yangzhu, and Gui Haichao took to the predetermined orbit. The first manned flight mission in the application and development stage was a complete success. The three astronauts will stay in the space station and “join up” with the crew of Shenzhou 15 to carry out on-orbit handover “face-to-face” meeting in which brings the total crew of six with a handover ceremony  from Shenzhou 15 towards 16..

On the week of 28th May 2023 .. Super blockbuster spectaculars earth views!  From the Shenzhou Sixteen Takionauts shooting awesome stunning the earth view mobile videography…..  The white bulkhead of the Tiangong -China space station, the bright sun wings and the clear blue earth make people fascinated. Although the Takionauts live in one side of the space station, through the portholes, they can see the brilliance of the stars, the sun and the moon sprinkled on the space station, reflecting the bright streamer. This beautiful scene is shared with us through the lens of Takionauts…..

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

#CNSA #ChinaNationalSpaceAdministration #国家航天局 |#BRI #June2023 |#北京 #中國 #中国科学技术馆 #Beijing #ChinaScienceAndTechnologyMuseum – Tiangong -#ChinaSpaceStation -The #天和; #TianheCoreModule structural parts…… #InternationalMuseum

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The China Science and Technology Museum 中国科学技术馆, established in 1988 in Beijing, China, People’s Republic of China is “the only comprehensive museum of science and technology at national level in China” according to the official website of the Beijing government The museum at its current site houses both permanent and temporary exhibitions. It has many facilities for science popularization (classrooms, laboratories, lecture halls, etc.) including four special-effect theatres The museum is located in the Beijing Olympic Village, near the Olympic Green station of the Beijing Subway…  China, Bei Jing Shi, Chaoyang, 北辰东路5 邮政编码: 100101, Beijing, China, People’s Republic of China.

In preparation for Beijing’s 2008 Summer Olympics, construction of new buildings for the museum began at the Olympic site in 2006. The new museum opened in September, 2009, having been expanded from its previous 40,000 square meters to 48,000 square meters. The previous museum site was closed for several years before undergoing renovation and expansion beginning in 2016. On 15 September 2018, the old science museum reopened as Beijing Science Center…

The Tianhe core module structural parts in the China Science and Technology Museum may be the best spacecraft exhibit open to the public for close viewing in China. All the external details can be seen at a glance, and some sections are also displayed. Space fans absolutely hooked. What’s more interesting is that it is located outside the paid area of ​​the west entrance hall of the Science and Technology Museum, so you can actually visit it without making an appointment to buy tickets. It is very cost-effective and highly recommended.

However, when I went there last week, the docking device at the front of the node cabin was removed for some reason. The original appearance can be seen in here
detailed pictures are released here for those who cannot go to watch it in person. The main content is Yes:


Figure 1-3: Overview


Figure 4-9: Various rendezvous and docking equipment in the node cabin


Figure 10-11: Appearance of the second/fourth quadrant of the large column section

Figure 12: Structure of the rear fuel tank


Figure 13-15: Solar wing deployment Device


Figure 16: Target Adapter for Large Robotic Arm


Figure 17: Floodlight


Figure 18: Control Moment Gyro in the Fourth Quadrant and Panoramic Camera A on it (the one that the space station is lifted out of the space station for the first time)

In addition, the verification documents and the original version of this structure A little bit different

Images and visuals are from their respectives