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China Outer Space Science, Technology and Explorations: News & Updates

Initially thought to be meteorite, mysterious flash was rocket from China
Dec 27, 2019
kuamnews

It was thought to be a meteorite, but according to Guam Homeland Security it appears to be a rocket launched from China. A press release from Guam Homeland Security states that Chinese media outlets report that a heavy lift Long March 5 rocket carrying a test satellite payload blasted off from the Wenchang launch site on the southern island of Hainan at 8.45 p.m.

This commercial space launch occurred at 10:45pm Guam time and corresponds with an FAA Notice to Airmen that was active from 10:43 p.m. until 2:41 a.m. The atmospheric phenomena that was witnessed in the vicinity of the Marianas occurred around 11:25 p.m.

There is no direct threat assessed to the Marianas from the launch.
 
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China's KZ-1A rocket launches two satellites
Source: Xinhua| 2019-08-31 15:47:35|Editor: Li Xia

JIUQUAN, Aug. 31 (Xinhua) -- Two satellites for technological experiments were sent into space by a Kuaizhou-1A, or KZ-1A, carrier rocket from the Jiuquan Satellite Launch Center in northwest China on Saturday.

The rocket blasted off at 7:41 a.m. and sent the two satellites into their planned orbit.

Kuaizhou-1A, meaning speedy vessel, is a low-cost solid-fuel carrier rocket with high reliability and a short preparation period. The rocket, developed by a company under the China Aerospace Science and Industry Corporation, is mainly used to launch low-orbit microsatellites.

Saturday's launch was the third mission of the KZ-1A rocket.

One of the newly launched satellites was developed by the Innovation Academy for Microsatellites of the Chinese Academy of Sciences (CAS), and will be used for microgravity technology experiments.

It will conduct on-orbit experiments on ultra-high precision control and measurement technologies under microgravity conditions, according to the CAS.

The technologies will lay a solid foundation for space science tasks and frontier basic science research, such as space-based gravitational wave detection and ultra-high precision inertial navigation, CAS said.

The other satellite, developed by Spacety Co., Ltd. (Changsha), a privately owned Chinese commercial space company, will be used to test solar sail technology.

The microgravity technology experiment satellite belongs to the second phase of a space science program of the CAS. During the first phase, a series of space science satellites have been sent into space, including the DAMPE to search for dark matter, the world's first quantum satellite and the HXMT, China's first X-ray space telescope.

In the coming three to four years, China plans to launch new space science satellites including the Gravitational Wave Electromagnetic Counterpart All-sky Monitor (GECAM), the Advanced Space-borne Solar Observatory (ASO-S), the Einstein-Probe (EP) and the Solar wind Magnetosphere Ionosphere Link Explorer (SMILE) to study gravitational waves, black holes, the relationship between the solar system and humanity, and the origin and evolution of the universe.

Solar sail in earth orbit is big breakthrough for China
By Wu Yong | chinadaily.com.cn | Updated: 2019-12-27 19:50
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A computer simulation shows the SIASAIL-I in orbit. [Photo provided to chinadaily.com.cn]

The Shenyang Institute of Automation (SIA) announced on Thursday that China's first solar sail, SIASAIL-I, has successfully verified a number of key technologies in orbit, a big breakthrough in China's solar sail development.

The solar sail developed by the institute of the Chinese Academy of Sciences based in Northeast China's Liaoning province is a spacecraft powered by the reflected light pressure of the sun on the spacecraft's membrane. Because it does not consume additional chemical fuel, a solar sail is considered to be the one and only spacecraft that may reach outside the solar system. It can be applied to a wide range of fields, including asteroid exploration, geomagnetic storm monitoring, solar polar exploration and space debris removal.

On July 20, 2001, Cosmos-1, the world's first solar sail spacecraft, was launched from a Russian nuclear submarine. Other countries, like Japan, the United States and the United Kingdom, have since carried out research on the technology and application of solar sails in orbit.

Founded in 1958, SIA focuses on robotics, industrial automation and optoelectronic information processing technology. As the cradle of China's robot industry, the institute leads the research and development of Chinese robot technology.

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Computer simulations show the SIASAIL-I carrying out technical verification through two-stage deployment in orbit flight. [Photo provided to chinadaily.com.cn]

SIA started scientific research on the design of space flexible deployment mechanism in 2011. SIASAIL-I is one of the first products.

Liu Jinguo, deputy director of the SIA Space Automation Technology Research Office, led the team in the design, technical verification and environmental tests of the solar sail.

Liu said that they managed to fold the flexible membrane and put it into the deployment machine, which is smaller than a billiard ball.

After the satellite platform is put into orbit, scientists carry out technical verification through two-stage deployment. At the first stage, the solar sail body is pushed out of the satellite platform and turned 90 degrees. The second stage is to erect masts and gradually spread the sail. The unfolded solar sail is about 0.6 square meters, which is equivalent to the size of eight Macbook airs laptop computers.

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Pictures of the SIASAIL-I shows it raising masts and gradually spreading the sail in orbit. [Photo provided to chinadaily.com.cn]

According to SIA, data and pictures returned from the satellite show that the key technology test of "SIASAIL-I" solar sail is progressing smoothly and successfully, including tests on the micro-satellite deployment system, and flexible sail membrane material.

SIA will further strengthen cooperation with relevant units at home and abroad and strive to realize China's first space science exploration mission based on a solar sail.
 
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央广军事
今天 09:43 来自 微博 weibo.com
【归航一月后,#远望21号火箭运输船再出发#】12月30日上午9时,远望21号火箭运输船驶离中国卫星海上测控部码头,开始执行某重大海上运输任务。此前该船与远望22号船共同完成长征5号遥三火箭的海上运输任务。(亓创 高超 信方飞)

China National Radio Military
Today at 09:43 from Weibo

[After returning for one month, Yuanwang 21 Rocket Carrier Ship Departed Again] At 9 am on December 30, Yuanwang 21 Rocket Carrier Ship departed from the dock of China Satellite Maritime Tracking and Control Department and began to perform a certain major maritime transport mission. Previously, the ship and Yuanwang No. 22 jointly completed the maritime transport mission of the Long March 5Y3 rocket. (Qí chuang, Gao chao, Xìn fangfei)

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NOTE: According to China aerospace enthusiast on social media, its mission is to transport the LM-7A to Wenchang for launch drill.
 
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China tests world's 1st mobile quantum satellite ground station

January 02, 2020

China's Quantum Experiments at Space Scale, or better known as the Micius, have successfully conducted an eight-minute-long encrypted data transmission with a mobile ground station, marking a world's first.

A Global Times reporter learned from the project research team on Wednesday that the successful space-ground quantum communication experiment was conducted around midnight on Monday in Jinan, East China's Shandong Province. The project is led by Pan Jianwei, a quantum physicist from the University of Science and Technology of China (UTSC).

The mobile quantum satellite ground station weighing slightly over 80 kilograms and the size of a paint bucket, was jointly developed by the UTSC, QuantumC Tek, a leading manufacturer and provider of QIT-enabled ICT security products and services and the Jinan Institute of Quantum Technology. It is the first of its kind in the world.

Pan's team said the development of the ground station started in 2019, and was completed on December 24. The successful communication with the Micius satellite marked the completion of construction of China's first mobile quantum satellite ground station.

The transmission lasted some eight minutes, and a great amount of encrypted information was sent to the ground station, the team said.

The previous ground station for the Micius satellite weighed more than 10 tons. Developers conducted hundreds of experiments in order to miniaturize the ground station.

The mobile version of the ground station can be installed on a vehicle, work anytime and anywhere, and its significantly reduced manufacturing cost paves the way for mass production in the future, the team said.

An experimental quantum communication network has already connected to the "Beijing-Shanghai Backbone" quantum communication link forming a national network, Pan's team said.

The project includes verifications and equipment based on key technologies used in long-distance quantum communications.

http://web.archive.org/web/20200102044640/http://en.people.cn/n3/2020/0102/c90000-9645443.html
http://archive.is/VsqYD#selection-729.2-761.123



Repost of the same comment made a few moments ago and that just got deleted by the mod of a space forum from a very desperate [grande] nation...


This is especially true for deep space communication, while the U.S. would need to wait up to 20 minutes for a reply from Mars, China would be able to communicate instantly. For Jupiter it would even reach 50 minutes time delay. Imagine a conflict in far away extraterrestrial outpost taking place between these two superpowers. The U.S. is now simply outgunned for the first time since 1945 by China!

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:cool::smokin:8-)
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Chinese rocket contractor reveals plans for record-setting 40-plus launches in 2020
Source:Global Times Published: 2020/1/2 22:26:40

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Carrier rocket Long March-5 Y3

China's biggest rocket contractor China Aerospace Science and Technology Corporation (CASC) aims to complete more than 40 missions in 2020 including maiden flights for three rockets as well as lunar and Mars probe missions.

According to the official CASC WeChat public account on Thursday, China will usher in a "super 2020" in the space sector, aiming for 40-plus missions for the first time in history.

The 2020 launches will include completion of BeiDou Navigation Satellite System, phase 3 of the Chang'e-5 lunar probe mission and the launch of the country's first ever Mars probe.

Long March-5B, a smaller variant of the Long March-5 and the strongest member of China's carrier rocket family will make its maiden flight in 2020.

Also, Long March-7A, which could lift around 7 ton of payload into geostationary transfer orbit (GTO) and Long March-8, whose payload capability reaches 5 ton to Sun-synchronous orbit with an altitude of 700 kilometers, will also take their first flights in 2020, according to CASC.

CASC completed 27 launches in 2019, sending 66 spacecrafts into space.
 
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Nation's space industry set for active year
By Zhao Lei | chinadaily.com.cn | Updated: 2020-01-02 20:25
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The third Long March-5 rocket, China's largest carrier rocket, is ready to be vertically transported at the Wenchang Space Launch Center in South China's Hainan province on Dec 21, 2019. [Photo by Su Dong/chinadaily.com.cn]

China's space industry is poised to embrace a super busy year in 2020 as about 50 launch missions are likely to take place this year, according to major contractors and sources from space industry circles.

China Aerospace Science and Technology Corp, the country's leading space contractor, said in a statement on Thursday that it will strive to carry out more than 40 launch missions to serve national space programs, such as the completion of the Beidou Navigation Satellite System, as well as demands from commercial satellite operators.

Sources inside the State-owned space giant who didn't want to be named told China Daily that the all of the 40-some planned missions will be carried out by the conglomerate's Long March-series carrier rockets, the nation's backbone rocket fleet, and do not include those to be made by the company's newly developed Smart Dragon solid-propellant rockets.

This means the space magnate's actual launch number in 2020 will be even bigger.

"In 2020, all of our academy's operational rocket models, ranging from Long March 3A to Long March 5, will make flights, and four new types –the Long March 5B, Long March 7A, Long March 8 and Smart Dragon 2 – are scheduled to conduct their maiden mission," Said an employee at the company's China Academy of Launch Vehicle Technology in Beijing, the biggest developer and maker of carrier rockets in the country.

He said the academy is expected to launch more rockets than any other previous year.

Another State-owned actor – China Aerospace Science and Industry Corp – has plans for at least eight launch missions by its Kuaizhou carrier rockets, according to Zhang Di, a senior rocket scientist and chairman of Expace Technology in Wuhan, Central China's Hubei province, a CASIC subsidiary that builds the Kuaizhou rocket.

Kuaizhou 11, a new type in the Kuaizhou family, is set for its debut flight in 2020 and will become the biggest and most powerful solid-propellant rocket in China, Zhang said in an earlier interview with China Daily.

Moreover, several private rocket enterprises have announced plans to launch missions in 2020 with their own rockets.

China was the world's most frequent user of carrier rockets in 2019 after gaining the title in 2018, with 32 successful orbital launches and two failures that year.

In 2018, China made 39 orbital launches, exactly the same number as the nation's total space missions in the entire 1990s.
 
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China tests micro propulsion technology for space-based gravitational wave detection
Xinhua | Updated: 2020-01-03 17:03

BEIJING - Chinese space engineers have tested a micro propulsion technology on a recently launched satellite, which could be used in future space-based gravitational wave detection.

Experts from the China Academy of Space Technology under the China Aerospace Science and Technology Corporation said they tested the variable thrust propulsion at the micronewton level on the Tianqin-1 satellite, which was sent into space on Dec 20, 2019.

The thrust of one micronewton is equivalent to the weight of a 1-cm-long hair. And the accuracy of the micro propulsion system of the Tianqin-1 satellite could reach 0.1 micronewtons, according to the experts.

The weak thrust is generated to continuously offset the interference of solar pressure and the atmosphere affecting the satellite.

Only by eliminating these forces can the satellite become a super static and super stable platform and make the space-based detection of gravitational waves possible, said experts.

Tianqin-1 is the first technological experiment satellite for the Tianqin program, meaning "harp in the sky," which was initiated by Sun Yat-sen University in south China's Guangdong province in 2015. It will consist of three satellites forming an equilateral triangle around the earth.

"It's like a harp in space. If the gravitational waves come, the 'harp's strings' will be plucked," said Luo Jun, president of Sun Yat-sen University and an academician of the Chinese Academy of Sciences.
 
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New method helps monitor aircrafts in extreme temperatures
Source: Xinhua| 2020-01-07 14:44:55|Editor: Xiaoxia

BEIJING, Jan. 7 (Xinhua) -- Chinese researchers have developed a new measuring method for aircraft working in extremely high temperatures, according to its developer.

Developed by the China Academy of Launch Vehicle Technology, the optical measurement technology could help monitor the structural deformation of aircraft working in temperatures between 800 and 1,300 degrees Celsius, marking a major breakthrough in China's ability to measure aircraft conditions in extreme environments.

When flying at a high speed in the air, an aircraft may face a complex thermal environment, and it is crucial to test whether it can withstand the high temperatures.

The method helps measure the response of the composite structure of the aircraft under high temperatures, offering detailed parameters to evaluate the aircraft's adaptability to extremely high temperatures and providing a reference for the design of new aircraft, according to Wang Zhiyong, one of the researchers.

It could help improve the aircraft's structural components design, making it lighter and able to carry more payloads.
 
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From CASC, the new CZ-7A is currently being transported by ship to Wenchang Launch Center in Hainan. A launch drill is scheduled and maiden flight later in the year.

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China Has Selected 17-18 New Astronauts, First Taikonaut Says
TANG SHIHUA
DATE : JAN 09 2020/SOURCE : YICAI

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China Has Selected 17-18 New Astronauts, First Taikonaut Says

(Yicai Global) Jan. 9 -- Yang Liwei, the first man China sent into space, said today that China has basically finished the selection of its third batch of astronauts, and 17-18 new space recruits are expected to report to the national space flight training center in the first half.

The new batch of astronauts' come from diverse backgrounds and, in addition to military aviators -- the traditional pipeline for the job -- also comprise civilian engineers and scientists, Yang said, China Daily reported.

Yang made history in October 2003, when he became China's first taikonaut after being picked from among 1,500 other candidates.

'Taikonaut' is a portmanteau of Chinese 'taikong' (space) and the Greek-derived suffix '-naut' (navigator).
 
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China Sky Eye, the World's Largest Single-dish Radio Telescope, Completes Its Final Step to Be Fully Operational
Sep 09, 2019

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Figure 1: FAST Aerial View (Credit: NAOC)

China’s Five-hundred-meter Aperture Spherical Radio Telescope, known as FAST, is the world’s most sensitive listening device. The single-dish radio telescope is made of 4,450 individual panels that scan the sky, detecting the universe’s whispers and shouts. It’s cradled in a natural Earth depression the size of 30 soccer fields. It has more than twice the collecting area of the world’s previous largest radio telescope, the 305-meter dish in Arecibo, Puerto Rico. With construction completed in 2016, FAST has undergone rigorous testing and has one more hurdle before it’s considered fully operational.

At the end of September, the $171 million USD (1.2 billion CNY) project will undergo the final review process in China, called the National Construction Acceptance.

"We fully expect a successful review at the national level, and then we’ll transition from being a construction project to a full facility,” said LI Di, FAST’s chief scientist and leader of the radio astronomy division of the National Astronomical Observatories of Chinese Academy of Sciences (NAOC). NAOC oversees FAST.

"Once we pass this review, FAST becomes an accepted telescope for exploring the Universe,” said JIANG Peng, FAST’s chief engineer and deputy director of FAST Operation and Development Center, NAOC. “Fast has been open to Chinese astronomers since April 2019. After the National Construction Acceptance, it will be open to astronomers across the world.”

For the review to be successful, FAST must meet the specifications initially laid out in the proposed design in 2008, such as the telescope’s sensitivity and performance. NAOC ran an internal review earlier this year, demonstrating that the telescope is as – if not more – sensitive as planned.

The construction of FAST, while solely funded by the Chinese government, involved collaboration with international organizations, including Australia’s Commonwealth Scientific and Industrial Research Organization, but exactly who in the international community will be able to use FAST – and to what extent – is still to be decided. While both LI and JIANG stressed the importance of international collaboration (they have both conducted research using data from radio telescopes in Australia and in Puerto Rico), the decision lies with the Chinese government.

"Our hope for FAST is an open-sky policy, with the goal of advancing the work of humanity,” LI said.

That work could include the detection of pulsars, for example. When a giant star collapses in on itself, it forms a dense neutron star that rotates, flashing a beam of intense radiation every so often. The beam is called a pulsar, and it can’t be visually observed. However, because that flash is a radio signal, scientists can listen it for using a radio telescope like FAST. Once they detect a pulsar, they can use it to identify and measure the behavior of other physical phenomena, such as gravitational waves.

In the few years FAST has been scientifically operational, they’ve already made significant scientific headway, including the discovery of 130 new pulsar candidates, 93 of which were confirmed with other radio telescopes. By comparison, the Arecibo Observatory in Puerto Rico has published the discovery of 200 pulsars since 1968.

"Our goal is to catch up,” LI said. “And eventually have hundreds of new discoveries every year.”

Beyond pulsars, the researchers are looking for Fast Radio Bursts (FRBs) – the unexplained yet extremely energetic radio signals that are much louder than pulsars despite being much further away. On August 29, FAST detected more than a few dozen bursts from FRB 121102, the first repeating FRB source ever discovered. This source has been constantly monitored by major telescopes around the world since its discovery in 2012. FAST, however, was the first telescope to detect so many bursts in such a short amount of time, attesting to its sensitivity and processing power. The FAST science team is now analyzing the data, which may help elucidate the FRB’s origin.

They’re also looking for hydrogen, the most abundant - and suspected oldest - element in the universe.

"We’re going to discover curious emissions,” JIANG said. “These observations could improve our understanding of high-energy physics, star evolution, and galaxy evolution.”

They’ve also organized two major surveys that will take about five years to scan the sky, with another ten years dedicated to analyzing the information collected.

"These programs are straight forward, and account for the research we can plan,” LI said. “But there’s always known unknowns and unknown unknowns that require creativity in planning.”

The surveys will take up about 50% of FAST’s scanning time, during which the researchers will also look for exoplanets with a magnetic field – a crucial component for supporting life, according to LI.

Now that FAST is approaching the final review stage, LI said he is relieved.

"I don’t have any anxiety about it,” LI said. “FAST has exceeded my own expectations. I’m very grateful to our primary driver and founder, Dr. NAN Rendong, and the excellent, hard-working engineering team. We’ve already collected more than enough data for me to work on for the rest of my career. There’s so much we can study.”

JIANG said he is excited, but also feels a responsibility to make FAST even better. In the first submission process of individual researchers interested in pursuing research projects, FAST received 133 proposals with more than 500 associate scientists.

"These individuals also bring with them students and junior scientists,” JIANG said. “They could build their careers using FAST data. We hope that more and more scientists can make use of FAST to produce excellent scientific results in the future, making our efforts even more meaningful.”

Both LI and JIANG agree that FAST is a product of exponential scientific growth in China since 2000.

"We’re a beneficiary of vast advancement of infrastructure in both science and technology,” LI said. “We are also a contributor. We hope to continue to contribute by making FAST not only a successful construction project, but also something that can be a global landmark in radio astronomy.”

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Figure 2: At the FAST Site. Left: Prof. JIANG Peng, FAST Chief Engineer; Right: Prof. LI Di, FAST Chief Scientist (Credit: NAOC)

About The National Astronomical Observatories of Chinese Academy of Sciences (NAOC):

The National Astronomical Observatories of Chinese Academy of Sciences (NAOC) was officially founded in April 2001 through the merger of observatories, stations and research center under Chinese Academy of Sciences. It is headquartered in Beijing and has four subordinate units across the country: the Yunnan Observatory (YNAO), the Nanjing Institute of Astronomical Optics and Technology (NIAOT), the Xinjiang Astronomical Observatory (XAO) and the Changchun Observatory. NAOC conducts cutting-edge astronomical studies, and operates major national facilities including The Large Sky Area Multi-Object Fiber Spectroscopy Telescope (LAMOST), the Five-hundred-meter Aperture Spherical Telescope (FAST) etc.

NAOC’s main research involves cosmological large-scale structures, the formation and evolution of galaxies and stars, high-energy astrophysics, solar magnetism and activity, lunar and deep space exploration, and astronomical instrumentation. NAOC has seven major research divisions in the areas of optical astronomy, radio astronomy, galaxies and cosmology, space science, solar physics, lunar and deep space exploration, and applications in astronomy.


China Sky Eye, the World's Largest Single-dish Radio Telescope, Completes Its Final Step to Be Fully Operational---Chinese Academy of Sciences
Xinhua Headlines: World's largest radio telescope starts formal operation
Source: Xinhua| 2020-01-11 15:56:04|Editor: huaxia

GUIYANG, Jan. 11 (Xinhua) -- China completed commissioning of the world's largest and most sensitive radio telescope on Saturday, putting it into formal operation after a productive three-year trial.

The telescope will gradually open to astronomers around the globe, providing them with a powerful tool to uncover the mysteries surrounding the genesis and evolutions of the universe.

All technical indicators of the telescope have reached or exceeded the planned level, and its performance is world-leading, Shen Zhulin, an official with the National Development and Reform Commission, said at a commissioning meeting Saturday.

The Five-hundred-meter Aperture Spherical radio Telescope (FAST) is a single-dish telescope with a diameter of half a kilometer and a receiving area equivalent to about 30 football fields. It is located in a naturally deep and round karst depression in southwest China's Guizhou Province.

After its commissioning, FAST can now be used for observation at full capacity, and is expected to make a number of major scientific discoveries in the coming two or three years, said Jiang Peng, the chief engineer of the telescope.

In over two years, FAST has identified 102 new pulsars, more than the total number of pulsars discovered by research teams in Europe and the United States during the same period.

It has also improved the timing accuracy of pulsars to about 50 times the previous level, making it possible for humans to detect extremely low-frequency Nahertz gravitational waves for the first time.

Dubbed "China Sky Eye," FAST is about 2.5 times as sensitive as the second-largest telescope in the world and capable of receiving a maximum of 38 gigabytes of information per second.

FAST has expanded four times the volume of the space range that radio telescopes can effectively explore, which means that scientists can discover more unknown stars, cosmic phenomena and laws of the universe, or even detect extraterrestrial life, said Li Kejia, a scientist at the Kavli Institute for Astronomy and Astrophysics at Peking University.

Carl Heiles, a professor of astronomy at the University of California, Berkeley and a member of the National Academy of Sciences of the United States, said FAST has provided revolutionary opportunities to astronomy, especially in identifying pulsars and observing interstellar clouds.

With a cost of nearly 1.2-billion-yuan (around 170 million U.S. dollars), FAST was completed in September 2016, over 20 years after it was proposed by Chinese astronomers.

Yan Jun, former director of the National Astronomical Observatories of the Chinese Academy of Sciences and project manager of FAST, said with growing economic strength and increasing investment in basic scientific research, China is poised to make greater contributions to the common cause of mankind.

Nearly 10 scientists from the United States, Britain and Pakistan have worked at FAST. More global collaborations are expected in areas such as gravitational wave detection and very-long-baseline interferometry (VLBI) following its formal operation.

To ensure FAST's performance, about 7,000 residents living in the vicinity were relocated, before moving back to a town 10 km away from the telescope. An astronomy-themed park has been built around the site of FAST, drawing a large number of visitors and tourists.

Nan Rendong, who had worked as the chief scientist of a team who selected the site for FAST and oversaw its construction, died in 2017 due to sickness at the age of 72. China honored him with several posthumous titles, including the "role model of our times."
 
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央广军事
今天 09:43 来自 微博 weibo.com
【归航一月后,#远望21号火箭运输船再出发#】12月30日上午9时,远望21号火箭运输船驶离中国卫星海上测控部码头,开始执行某重大海上运输任务。此前该船与远望22号船共同完成长征5号遥三火箭的海上运输任务。(亓创 高超 信方飞)

China National Radio Military
Today at 09:43 from Weibo

[After returning for one month, Yuanwang 21 Rocket Carrier Ship Departed Again] At 9 am on December 30, Yuanwang 21 Rocket Carrier Ship departed from the dock of China Satellite Maritime Tracking and Control Department and began to perform a certain major maritime transport mission. Previously, the ship and Yuanwang No. 22 jointly completed the maritime transport mission of the Long March 5Y3 rocket. (Qí chuang, Gao chao, Xìn fangfei)

670172e1ly1gaei6l68rnj21900u04qr.jpg

NOTE: According to China aerospace enthusiast on social media, its mission is to transport the LM-7A to Wenchang for launch drill.
China航天
今天 00:09
装载着长征七号甲运载火箭的远望21号运输船已经到达文昌清澜港近海。现已锚泊,将于今天早上进港。
The Yuanwang 21 transport ship carrying the Long March 7A carrier rocket has reached Wenchang Qinglan Port offshore. It is now moored and will enter the port this morning.

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