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

Chengdu to launch "artificial moon" in 2020
(People's Daily Online) 09:06, October 16, 2018

FOREIGN201810160906000591283229352.jpg

Southwestern China’s city of Chengdu plans to launch its illumination satellite, also known as the “artificial moon”, in 2020, according to Wu Chunfeng, chairman of Chengdu Aerospace Science and Technology Microelectronics System Research Institute Co., Ltd.

Wu made the remarks at a national mass innovation and entrepreneurship activity held in Chengdu on Oct. 10.

The illumination satellite is designed to complement the moon at night. Wu introduced that the brightness of the “artificial moon” is eight times that of the real moon, and will be bright enough to replace street lights.

The satellite will be able to light an area with a diameter of 10 to 80 kilometers, while the precise illumination range can be controlled within a few dozen meters.

The idea of the "artificial moon" came from a French artist, who imagined hanging a necklace made of mirrors above the earth, which could reflect sunshine through the streets of Paris all year round.

The testing of the illumination satellite started years ago, and now the technology has finally matured, explained Wu.

Some people expressed concern that the lights reflected from space could have adverse effects on the daily routine of certain animals and astronomical observation.

Kang Weimin, director of the Institute of Optics, School of Aerospace, Harbin Institute of Technology, explained that the light of the satellite is similar to a dusk-like glow, so it should not affect animals’ routines.
 
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Mainland, HK cooperate on space telescope to search for dark matter
Source: Xinhua| 2018-10-18 16:04:03|Editor: Li Xia


BEIJING, Oct. 18 (Xinhua) -- Scientists and space engineers from Chinese mainland and Hong Kong are working together on a space telescope to search for the mysterious dark matter in galaxy clusters about 300 million light years away.

The space telescope, with a detector like the eye of a lobster, has been named HKU No.1, and is expected to be sent into space in 2019.

It is a joint project of the University of Hong Kong (HKU), Nanjing University, Beijing Institute of Space Mechanics and Electricity under the China Academy of Space Technology and two commercial space companies in Beijing.

Inspired by the structure of a lobster eye, U.S. scientists invented the focusing technology in the late 1970s. Its biggest advantage is its wide-angle vision.

Many laboratories around the world have made lobster-eye probes to detect X-rays in space, but none has been sent into orbit.

Su Yun, director of the R&D center at the Beijing Institute of Space Mechanics and Electricity, said the institute started to develop a lobster-eye X-ray focusing detector in 2013, and made breakthroughs in the core technology at the end of 2015. In 2016, HKU and other organizations supported the application of the technology in space astronomy.

Astronomical observations show all the known matters account for only about 5 percent of the universe, while 95 percent of the universe is made up of dark matter and dark energy.

Regarded as the two "dark clouds" over the 21st Century physics, dark matter and dark energy are at the frontier of basic physics and cosmology.

What is dark matter? There are many hypotheses.

China launched the Dark Matter Particle Explorer (DAMPE), nicknamed Wukong or Monkey King, at the end of 2015 to detect the high-energy electrons and gamma rays in space, which might be generated in the process of annihilation or decay of dark matter.

"If we compare the signals that DAMPE is looking for as the 'prime suspect' of dark matter, then our lobster-eye telescope is going to investigate another 'suspect' which is the sterile neutrino," said Su Meng, deputy director of the HKU Laboratory for Space Research.

The satellite will also be used to study the hot gas in rich galaxy clusters, observe comets in the solar system and explore the interaction of the solar wind with the earth's magnetosphere, said Su Meng.

Quentin Parker, associate dean of the HKU faculty of science, said the broad mission scope is highly interdisciplinary. It effectively combines the fields of astronomy, earth science and planetary science. The potential science dividend and impact of this satellite is cutting edge.

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Chengdu to launch "artificial moon" in 2020
(People's Daily Online) 09:06, October 16, 2018

FOREIGN201810160906000591283229352.jpg

Southwestern China’s city of Chengdu plans to launch its illumination satellite, also known as the “artificial moon”, in 2020, according to Wu Chunfeng, chairman of Chengdu Aerospace Science and Technology Microelectronics System Research Institute Co., Ltd.

Wu made the remarks at a national mass innovation and entrepreneurship activity held in Chengdu on Oct. 10.

The illumination satellite is designed to complement the moon at night. Wu introduced that the brightness of the “artificial moon” is eight times that of the real moon, and will be bright enough to replace street lights.

The satellite will be able to light an area with a diameter of 10 to 80 kilometers, while the precise illumination range can be controlled within a few dozen meters.

The idea of the "artificial moon" came from a French artist, who imagined hanging a necklace made of mirrors above the earth, which could reflect sunshine through the streets of Paris all year round.

The testing of the illumination satellite started years ago, and now the technology has finally matured, explained Wu.

Some people expressed concern that the lights reflected from space could have adverse effects on the daily routine of certain animals and astronomical observation.

Kang Weimin, director of the Institute of Optics, School of Aerospace, Harbin Institute of Technology, explained that the light of the satellite is similar to a dusk-like glow, so it should not affect animals’ routines.
Man-made moon to shed light on Chengdu in 2020
By Zhang Zhihao | China Daily | Updated: 2018-10-19 08:18

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An astronomer stargazes ahead of the supermoon on Sept 27, 2015 in Brighton, England. [Photo/VCG]

China's space industry is preparing to launch the world's first artificial moon to help with urban illumination at night, a leading scientist said.

China plans to put an artificial moon in orbit above Chengdu, capital of Sichuan province, from the Xichang Satellite Launch Center in Sichuan by 2020. If the launch proves successful, three more such objects will be launched in 2022, Wu Chunfeng, head of Tian Fu New Area Science Society in Chengdu, told China Daily in an exclusive interview on Thursday.

The artificial moon will have a reflective coating that can deflect sunlight back to Earth, similar to how the moon shines, he said.

The man-made moon is essentially an illumination satellite designed to complement the moon at night, though it is predicted to be eight times brighter, the scientist added.

This is due to the object's planned orbit about 500 kilometers above Earth-much closer than the 380,000-km distance to the moon, Wu said.

"But this is not enough to light up the entire night sky," he said. "Its expected brightness, in the eyes of humans, is around one-fifth of normal streetlights."

The location and brightness of the light beam can be changed, and its coverage accuracy can fall within a few dozen meters, he said.

The artificial moon might replace some streetlights in the urban area, thus conserving energy.

Wu estimated Chengdu could save around 1.2 billion ($174 million) yuan in electricity annually if the artificial moon illuminated 50 sq km of the city.

Meanwhile, the extra light can shine into disaster zones during blackouts, thus aiding relief and rescue efforts, he added.

The mirrors can be adjusted for luminosity, and can be completely turned off when needed. However, less light from the satellite will reach the ground if the sky is overcast.

"The first moon will be mostly experimental, but the three moons in 2022 will be the real deal with great civic and commercial potential," Wu said.

The three new man-made moons can take turns reflecting sunlight as they will not always be in the best position relative to the sun, and together they can illuminate an area of around 3,600 to 6,400 sq km on Earth for 24 hours if desired, he said.

Wu said several notable universities and institutes, including Harbin Institute of Technology and China Aerospace Science and Industry Corp, have evaluated the man-made moon project and given it their approval for trial and demonstration.

Despite the approval, Wu was quick to point out some criticism of the project, including fear of detrimental physiological consequences for people and animals, in which the absence of regular alternations between night and day would disrupt various metabolic patterns, including sleep.

"We will only conduct our tests in an uninhabited desert, so our light beams will not interfere with any people or Earth-based space observation equipment," he said. "When the satellite is in operation, people will see only a bright star above, and not a giant moon as imagined."

However, Wu stressed that much work still needs to be done, both in terms of scientific feasibility and business models, to tap into the full potential of China's artificial moons.

He said China, Russia, the United States, Japan and European countries are all looking to capitalize on harnessing energy from space, and reflecting mirrors have been in the discussion for some time.

In 1999, Russia tried sending a 25-meter diameter space mirror, under the project named Banner, into space. The project aimed to redirect sunlight onto Russian cities, but the space mirror misfired at launch and the entire project was soon canceled due to budget issues, according to the New York Times.
 
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The Solar wind Magnetosphere Ionosphere Link Explorer (SMILE), a joint CAS and European Space Agency mission, will pioneer a new technique for imaging Earth's magnetosphere. Previous satellites have made point measurements as they traveled through the magnetosphere. But scientists recently learned that collisions between particles of the solar wind and stray particles of Earth's atmosphere produce low energy x-rays that light up the magnetosphere. By watching these x-rays, SMILE will capture its dynamic behavior.
China-ESA SMILE spacecraft to launch on Vega-C in 2021 | SpaceTech Asia
By Deyana Goh - October 22, 2018


Image courtesy of China's National Space Science Center, CAS.

Between October 10-12, scientists from China’s space programme and the European Space Agency (ESA) conducted a review of China-ESA joint mission SMILE. During the review, they confirmed that the SMILE spacecraft will be launched in 2021 on Arianespace’s upcoming Vega-C rocket, after choosing between the Soyuz, Ariane 6, and Vega-C.

The review took place at the European Aerospace Technology Center (ESTEC), where the mission requirements and systems were analyzed, ensuring they meet the mission’s scientific objectives – to study the Earth’s magnetosphere, and deepen our understanding of the Sun-Earth relationship.

SMILE (Solar-wind Magnetosphere Ionosphere Link Explorer) is the first mission since the early 1990s with such deep China-ESA collaboration, where both parties are jointly designing, implementing, launching, and operating a spacecraft together. SMILE was selected after ESA and the Chinese Academy of Sciences (CAS) issued a joint call for mission concepts in 2015, with a feasibility study beginning in 2016.

The SMILE spacecraft will have a liftoff mass of approximately 2,000kg, and will consist of a 3.15-m-high platform built by CAS, and a payload module designed by ESA for the Vega C. After launch, it will be placed in a highly-elliptical, inclined orbit (HEO), at a maximum height of 121,000 km above the Earth – nearly a third of the way to the Moon at apogee. From this vantage point, SMILE will be able to capture images of the boundary of the Earth’s magnetic field.

SMILE will carry four payloads – (a) a Soft X-ray Imager developed by the University of Leicester, UK, along with other institutions in Europe, (b) an UltraViolet Imager jointly developed by institutions in China, Belgium, and Canada, (c) a Light Ion Analyser by institutions in China and the UK, and (d) a Magnetometer by CAS and the Austrian Academy of Sciences.
 
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Saturday, October 21, 2017, 10:36
Chinese-French satellite nearly ready
By Jiang Chenglong

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This image obtained from the official website of the Centre National d'Etudes Spatiales (CENS) shows an artist's rendition of the deployed CFOSAT spacecraft in orbit.

Chinese and French space scientists are working in Beijing on the final assembly of their first jointly developed satellite, which is scheduled to be launched in the second half of 2018 to assist in oceanographical research.

Based on China's CAST 2000 satellite platform, which has been applied to dozens of satellites successfully, the China-France Oceanography Satellite, known as CFOSAT, will be equipped with two major high-tech instruments - French-developed surface waves investigation and monitoring radar and Chinese-developed wind scatterometer.

Unlike others, it can measure the wind and waves at the same time, which relies on two countries' most advanced technology

Daniele Hauser,
director of Laboratoire Atmospheres, Milieux, Observations Spatiales in France​

The China National Space Administration said in a news release that the French-developed parts were delivered on time to their Chinese partner in August and the two nations' science teams are working together on the final assembly in Beijing.

"After the assembly, we will run a series of tests in different simulated environments similar to those in space in terms of temperature, vacuum and radiation," said Wang Hui, deputy director of the Beijing Institute of Spacecraft Environment Engineering.

The satellite is expected to be launched in the latter half of next year in China and will operate at an orbit 500 kilometers above Earth for three years, according to the administration.

ALSO READ: China's new-generation weather satellite put into service

The satellite is tasked with detecting the wind and waves on the ocean's surface and helping analyze their effect on the air-sea interface, which will enhance what is known about climate change.

Daniele Hauser, director of Laboratoire Atmospheres, Milieux, Observations Spatiales in France, said the satellite will observe the wind and waves in both normal and extreme weather conditions.

"Unlike others, it can measure the wind and waves at the same time, which relies on two countries' most advanced technology," she said.

READ MORE: Breakthroughs confirm China's rise as a global high-tech player

The wind and wave data collected by the satellite will be extremely significant for an exact marine meteorological forecast, which will benefit sea transportation, marine pollution prevention and the yacht industry, according to the China National Space Administration.

Huang Yaohui, deputy chief commander on Chinese side of the project, said, "The data gathered by the satellite will be shared by both China and France."

The CFOSAT program started in 2009.

"Both Chinese and French side have utilized their rich experience and developed this satellite with a number of world-leading technologies," said Wang Lili, chief designer of the satellite at China Aerospace Science and Technology Corp.
October 22, 2018
Launch of French-Chinese CFOSat satellite - CNES and CNRS join forces to study climate change in the world’s oceans


The French-Chinese CFOSat satellite will be launched on Monday 29 October atop a Chinese Long March 2C vehicle from the Jiuquan launch base in Inner Mongolia. This science mission to study ocean surface winds and waves is the first joint project pursued under French-Chinese space cooperation. Developed by CNES and the China National Space Administration (CNSA), the satellite will carry two radar instruments: SWIM (Surface Waves Investigation and Monitoring), developed by France, which will survey the length, height and direction of waves; and SCAT (wind SCATterometer), developed by China, which will measure the strength and direction of winds. The two instruments will enable measurements of winds and waves to be acquired simultaneously for the first time. CFOSat will thus characterize the dynamics of waves and how they interact with surface winds more comprehensively than ever before.

The CFOSat mission has been designed to gain new insights into ocean surface characteristics (winds and waves) and their impacts on the atmosphere-ocean exchanges that play a key role in the climate system. It will shed new light on the hitherto poorly understood role of waves in the lower layers of the atmosphere, the ocean surface and polar sea ice. Complementing other current Earth remote-sensing satellites, CFOSat will deliver crucial observations for atmospheric and sea-state forecasting and digital modelling of the coupled ocean-atmosphere system. The satellite will also provide precise data on deep-sea wave conditions, which have a bearing on the impact of waves on coastal areas.

The French scientific community is closely involved in the CFOSat mission through two research laboratories attached to the national scientific research centre CNRS: the LATMOS atmospheres, environments and space observations laboratory (CNRS/UVSQ/SU) and the LOPS physical and space oceanography laboratory (CNRS/IRD/Ifremer/UBO), which came up with the concept for the SWIM instrument, the first rotating-beam scatterometer of its kind. The instrument was developed by Thales Alenia Space with CNES oversight. French teams will task and monitor the SWIM instrument from the mission centre at the Toulouse Space Centre.

In recent years, LATMOS, LOPS and teams at the national weather service Meteo-France have been conducting research in readiness to use data collected by SWIM and SCAT—on the ocean surface, ocean/atmosphere interactions and severe weather events—and multiplying their efforts to prepare to validate these data for research and applications purposes. The teams have worked closely with industry partners specializing in satellite data processing and validation such as ACRI-ST, CLS and et Ocean Data Lab.

After a month or so checking out the instruments, the mission will be ready to deliver data to science teams at LATMOS, LOPS and the marine forecasting department of Meteo-France, who will then analyse and validate them. Data will be made available to the scientific community after six to seven months.

Looking forward to the launch, CNES President Jean-Yves Le Gall commented: “CFOSat materializes France and China’s commitment to tackling climate change and is the result of a unique partnership in this domain. CNES and CNRS, through their research laboratories and partners, are the standard-bearers of France’s excellence in innovative space technologies which, combined with China’s technological expertise, makes CFOSat such a unique satellite that is set to improve our knowledge and our ability to forecast climate phenomena between the ocean and atmosphere more accurately.”

Antoine Petit, Chairman & CEO of CNRS, the French national scientific research centre, added: “With the CFOSat satellite, scientists can look forward to new and original insights into ocean surface winds and waves that will inform their research into ocean and atmosphere processes. Teams at CNRS and CNES have been working to prepare this space mission for more than 10 years. They are now readying to validate and then use its data in a spirit of international cooperation.”



presse.cnes.fr | Launch of French-Chinese CFOSat satellite - CNES and CNRS join forces to study climate change in the world’s oceans
 
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Alibaba announces space plans for its biggest shopping event
Source:Global Times Published: 2018/10/22 21:13:40

033381b9-b521-4176-9824-0c9908962c53.jpeg
Pedestrians walk past an advertisement for the Tmall 11.11 online shopping festival at a subway station in Beijing File photo: IC

Chinese e-commerce giant Alibaba Group on Monday announced its space plans for the forthcoming November 11 sales event.

In an attempt to improve online-to-offline integration during the annual shopping event, the company is set to loft a mini space station known as Candy Tin and a Tmall International communications satellite around this year's Singles' Day, according to a statement Alibaba sent to the Global Times on Monday.

The e-commerce company is also banking on its space plans to work with scientific research institutions, for relevant space technologies and autonomous driving technologies to be translated into real-world applications. The cost of the launch was not disclosed.

Doubts remain over the actual significance of the launch. There is no apparent link between the launch and an improvement in the buying experience, Liu Dingding, a Beijing-based industry analyst, told the Global Times on Monday.

"For the time being, it seems to be much of a publicity stunt," Liu said, noting however it remains to be seen whether Alibaba - which has announced a $15 billion global R&D initiative called DAMO Academy - would consider incorporating new technologies into its space actions.

This is not the first time that Alibaba has revealed its space ambitions. In September 2016, the company's daily deals site - juhuasuan.com - announced plans to launch the world's first e-commerce satellite to allow for satellite data to be used in agriculture. Through the satellite providing agricultural cultivation and harvesting data, consumers are supposed to be provided with the world's best vegetables.

The report said Juhuasuan.com plans to provide consumers with the world's best vegetables after analyzing agricultural cultivation and harvesting data provided by satellites.

The company's space moves, which are an example of domestic internet companies' expansion into the commercial space sector, are still lagging larger steps toward space being taken by their global counterparts.

For example, Google and Fidelity Investments invested $1 billion in SpaceX, the private rocket company founded by Tesla CEO Elon Musk, in 2015. SpaceX and satellite internet start-up OneWeb, also US-based, are now racing to build space-based internet.

Amazon's space venture Blue Origin, founded in 2000, is reportedly working on low-cost infrastructure intended to reduce the cost of space travel.
 
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10/23/2018 11:00
Weighing planets and asteroids
Norbert Junkes Presse- und Öffentlichkeitsarbeit
Max-Planck-Institut für Radioastronomie


A team of scientists from the `International Pulsar Timing Array’ consortium, led by researchers from the Max Planck Institute for Radio Astronomy in Bonn, Germany, has used pulsar timing data to measure the masses of the dwarf-planet Ceres and other asteroids. The result for the mass of Ceres is 1.3% of the mass of the Earth’s moon. The team has also measured the masses of the major planets of the solar system with much improved precision than a past study and demonstrated how pulsar-timing data can be used to explore unknown massive objects orbiting the Sun.

Solar system bodies can be weighed based on corrections astronomers make to signals from pulsars, small spinning stars that emit regular ‘flashes’ of radio waves. This technique, which was first published in 2010 by a team of researchers led by David Champion from the Max Planck Institute for Radio Astronomy (MPIfR), relies on the precise timing of signals from an array of millisecond pulsars. Astronomers observe the beamed radiation millisecond pulsars emit as ‘flashing’, periodical signals, much like one would observe from a lighthouse. Unlike lighthouses, however, these celestial objects rotate with tremendous speeds, with periods down to a few milliseconds, and are the most stable rotators known in the Universe. The largest radio telescopes are needed to resolving these weak signals.

“Using sophisticated models of their rotation we can predict the arrival time of the pulses of millisecond-pulsars to within a couple hundreds of nanoseconds over decades. This allows us to use them as accurate celestial clocks for a number of applications”, says Nicolas Caballero of the MPIfR, now working at the Kavli Institute for Astronomy and Astrophysics at Peking University, the leading author of the publication.

The motion of the Earth around the Sun makes it complicated to directly use the recorded pulse times-of-arrival at the telescope. Astronomers circumvent this problem by recalculating the times-of-arrival to a common reference frame, namely the centre of mass of the entire solar system, the so-called “the solar-system barycentre”.

“We rely on the work of our colleagues working in planetary astronomy, which uses a wealth of data, including data from spacecraft fly-bys, to create solar-system ephemerides that describes orbits of the planets, moons and asteroids”, says Nicolas Caballero.

If the ephemeris uses an incorrect mass this would result in an offset in the location of the barycentre and, in turn, periodic delays and advances in the expected arrival time of pulses from pulsars.

Using the latest published data by the ‘International Pulsar Timing Array’ (IPTA), pulsar astronomers have managed to improve the general sensitivity to such mass errors by an order of magnitude by comparison to the original study in 2010.

At the distance of the asteroid belt lying between Mars and Jupiter, the data are sensitive to masses of just 0.0003% of the Earth’s mass.

“If someone were to remove from Jupiter a mass equivalent to just about a tenth of the Earth’s oceans, we would start to see periodic oscillations in our IPTA data”, says Yanjun Guo, student at the Kavli Institute in Beijing and co-author of the paper. “This has allowed us to independently measure the mass of the most massive objects in the asteroid belt”, she continues.

Ceres, recently reclassified as a dwarf planet, is the most massive object in the asteroid belt. The analysis determined its mass to be 4.4 × 10-10 times the solar mass or only 1.3% of the mass of the Moon. The precision is only an order of magnitude below the current best estimates. The study presents such mass measurements for another four asteroids.

“Being able to probe the masses of Ceres and massive asteroids shows the improvements in precision and sensitivity of our observations”, says David Champion.

While spacecraft like NASA’s Dawn which is now providing in-situ measurements of the
gravity fields of Ceres and the asteroid Vesta can further improve the solar system ephemeris, pulsar timing results will also continue to improve over time, both due to increased data precision that new radio telescopes will offer, and due to the extended time-span of the accumulated data sets.

“The current data set is about two decades long, and is the product of painstaking and uninterrupted work over many decades. The work of hundreds of scientists and engineers is behind the continued success of pulsar timing research”, explains Michael Kramer, head of the Fundamental Physics in Radio Astronomy research department at MPIfR and also co-author of the paper.

The study went beyond measuring the mass of known planets and asteroids. Implementing a method published earlier in an article led by Yanjun Guo, the international consortium searched for unknown masses which are unmodelled by the ephemeris and placed upper limits on the mass of any such object possibly in orbit around the Sun.

“It is a pilot study and we only considered unknown bodies in unperturbed, eccentric orbits. Nevertheless, it shows the exciting possibilities that pulsar timing offers to study the solar system, and impose restrictions on the parameters of theoretically proposed objects, from anything ranging from Planet Nine, to dark matter in the solar neighbourhood”, concludes Yanjun Guo.

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The authors of the paper are R. N. Caballero, Y. J. Guo, K. J. Lee, P. Lazarus, D. J. Champion, G. Desvignes, M. Kramer, K. Plant, Z. Arzoumanian, M. Bailes, C. G. Bassa, N. D. R. Bhat, A. Brazier, M. Burgay, S. Burke-Spolaor, S. J. Chamberlin, S. Chatterjee, I. Cognard, J. M. Cordes, S. Dai, P. Demorest, T. Dolch, R. D. Ferdman, E. Fonseca, J. R. Gair, N. Garver-Daniels, P. Gentile, M. E. Gonzalez, E. Graikou, L. Guillemot, G. Hobbs, G. H. Janssen, R. Karuppusamy, M. J. Keith, M. Kerr, M. T. Lam, P. D. Lasky, T. J. W. Lazio, L. Levin, K. Liu, A. N. Lommen, D. R. Lorimer, R. S. Lynch, D. R. Madison, R. N. Manchester, J.W. McKee, M. A. McLaughlin, S. T. McWilliams, C. M. F. Mingarelli, D. J. Nice, S. Oslowski, N. T. Palliyaguru, T. T. Pennucci, B. B. P. Perera, D. Perrodin, A. Possenti, S. M. Ransom, D. J. Reardon, S. A. Sanidas, A. Sesana, G. Shaifullah, R. M. Shannon, X. Siemens, J. Simon, R. Spiewak, I. Stairs, B. Stappers, D. R. Stinebring, K. Stovall, J. K. Swiggum, S. R. Taylor, G. Theureau, C. Tiburzi, L. Toomey, R. van Haasteren, W. van Straten, J. P. W. Verbiest, J. B. Wang, X. J. Zhu and W. W. Zhu.

MPIfR authors with first or second affiliation include Nicolas Caballero, the first author, and also Kejia Lee, Patrick Lazarus, David Champion, Gregory Desvignes, Michael Kramer, Eleni Graikou, Ramesh Karuppusamy, Kuo Liu, James McKee, Chiara Mingarelli, Stefan Oslowski, Caterina Tiburzi and Joris Verbiest.



Weighing planets and asteroids | Informationsdienst Wissenschaft
 
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Details of future space station revealed
By ZHAO LEI | China Daily | Updated: 2018-10-24 07:21

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The prototype of the core module of China's first manned space station is seen at a research facility. The space station is expected to be operational around 2022. CHINA DAILY

The China Manned Space Agency made public on Tuesday some technical specifications of the core module of the country's future manned space station.

The core module, Tianhe, or Harmony of Heavens, will have three parts: the connecting section, life-support and control section, and resources section, the agency said in a statement at the Fifth Manned Space Conference, which opened on Tuesday in Xi'an, Shaanxi province.

The module will be equipped with three docking hatches reserved for visiting manned or cargo spacecraft and two berthing locations used to connect with space laboratories. There will also be a hatch for astronauts' extravehicular activities, the statement said.

The core module will be 16.6 meters long with a diameter of 4.2 meters. It will be central to the space station's operations, as astronauts will live there and control the entire station from inside it. The module will also be capable of hosting scientific experiments.

Chinese engineers are building a prototype of the core module, and construction of the core module is scheduled to start around year's end, the agency said.

China will start putting together its first manned space station around 2020, according to government plans. First, a Long March 5B heavy-lift rocket, which is being developed by Chinese scientists, will put the station's core module into orbit that year. Next, about four manned spaceflights will be made to send astronauts to assemble the station.

The space station is expected to be fully operational around 2022. It is set to operate for about 15 years, according to the China Academy of Space Technology, developer of the station.

In 2024, it will become the world's only space station if the United States-led International Space Station is retired that year as planned.

The multimodule station, named Tiangong, or Heavenly Palace, will be composed mainly of three parts-a core module attached to two space labs-having a combined weight of more than 90 metric tons, the academy said.

The station will be able to carry more than 10 tons of scientific and experimental equipment. It will have 26 internal payload cabinets, 67 external hatches designed to dock with medium-sized extravehicular apparatuses and four external points for towing large instruments, according to designers.

In late May, the United Nations Office for Outer Space Affairs and China Manned Space Agency jointly published their first announcement inviting scientists from around the world to submit their research proposals for a chance to conduct their own experiments on board the Chinese space station.

China also has announced that it welcomes foreign astronauts on its space station and has trained two European astronauts in sea survival, which is necessary for the space station mission.
 
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China launches HY-2B marine satellite
Source: Xinhua| 2018-10-25 09:36:44|Editor: Yang Yi


TAIYUAN, Oct. 25 (Xinhua) -- China sent a new marine satellite into orbit Thursday morning.

A Long March-4B rocket carrying the HY-2B satellite took off at 6:57 a.m. from the Taiyuan Satellite Launch Center in north China's Shanxi Province.

The HY-2B is an ocean dynamic satellite, which will form a network with the subsequent HY-2C and HY-2D for maritime environmental monitoring.

Thursday's launch was the 288th by the Long March rocket series.


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Alibaba announces space plans for its biggest shopping event
Source:Global Times Published: 2018/10/22 21:13:40

033381b9-b521-4176-9824-0c9908962c53.jpeg
Pedestrians walk past an advertisement for the Tmall 11.11 online shopping festival at a subway station in Beijing File photo: IC

Chinese e-commerce giant Alibaba Group on Monday announced its space plans for the forthcoming November 11 sales event.

In an attempt to improve online-to-offline integration during the annual shopping event, the company is set to loft a mini space station known as Candy Tin and a Tmall International communications satellite around this year's Singles' Day, according to a statement Alibaba sent to the Global Times on Monday.

The e-commerce company is also banking on its space plans to work with scientific research institutions, for relevant space technologies and autonomous driving technologies to be translated into real-world applications. The cost of the launch was not disclosed.

Doubts remain over the actual significance of the launch. There is no apparent link between the launch and an improvement in the buying experience, Liu Dingding, a Beijing-based industry analyst, told the Global Times on Monday.

"For the time being, it seems to be much of a publicity stunt," Liu said, noting however it remains to be seen whether Alibaba - which has announced a $15 billion global R&D initiative called DAMO Academy - would consider incorporating new technologies into its space actions.

This is not the first time that Alibaba has revealed its space ambitions. In September 2016, the company's daily deals site - juhuasuan.com - announced plans to launch the world's first e-commerce satellite to allow for satellite data to be used in agriculture. Through the satellite providing agricultural cultivation and harvesting data, consumers are supposed to be provided with the world's best vegetables.

The report said Juhuasuan.com plans to provide consumers with the world's best vegetables after analyzing agricultural cultivation and harvesting data provided by satellites.

The company's space moves, which are an example of domestic internet companies' expansion into the commercial space sector, are still lagging larger steps toward space being taken by their global counterparts.

For example, Google and Fidelity Investments invested $1 billion in SpaceX, the private rocket company founded by Tesla CEO Elon Musk, in 2015. SpaceX and satellite internet start-up OneWeb, also US-based, are now racing to build space-based internet.

Amazon's space venture Blue Origin, founded in 2000, is reportedly working on low-cost infrastructure intended to reduce the cost of space travel.
Payload of Alibaba also piggyback on this launch.
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China to launch unmanned test flight of next-generation crewed spacecraft in 2019
by Andrew Jones — October 12, 2018

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A scale re-entry module for a next-generation Chinese crewed spacecraft that launched in 2016. Launch of a full-scale model is on tap for 2019. Credit: CASC

HELSINKI — China will perform a first test flight of a full-scale 20-metric ton model of a successor to its Shenzhou spacecraft for human spaceflight next year, a senior official at the craft’s designer said last week.

The next-generation crewed spacecraft will be the payload for the first flight of the Long March 5B launch vehicle, a variant of the Long March 5 and designed for lofting large modules of the planned Chinese Space Station (CSS) into low Earth orbit.

In 2016, China use the first flight of the Long March 7 medium-lift rocket to launch a scale model of a new return module to test re-entry and landing profile for new spacecraft.

“The full model will be tested next year,” Li Ming, vice president of the China Academy of Space Technology (CAST), told SpaceNews, and confirmed the mission would include the full spacecraft including re-entry and orbital modules.

“The key issue is to test the new shape and reusable technologies. This capsule will be reused after recovery from space,” Li Ming said at the International Astronautical Congress, held Oct. 1-5 in Bremen, Germany.

The test of the spacecraft will not include environmental controls or systems required to support astronauts, but focus on testing avionics, separation events, heat shielding, parachutes and recovery operations, similar to the mission profile NASA’s Orion flew in 2014 when a Delta 4 heavy rocket sent the unmanned capsule 5,800 kilometers above the Earth to test re-entry systems.

CAST, a major spacecraft and satellite maker under the main contractor for the Chinese space program, is developing the Shenzhou successor to allow astronauts to move out of low Earth orbit and into deep space, including missions to the moon and Mars.

China currently uses 7.8-ton Shenzhou spacecraft, based on the Soyuz, for trips to low Earth orbit.To go beyond, the next-generation craft will need to handlethe harsher radiation environment of deep space and deal with reentering the Earth’s atmosphere at greater velocities.

Two versions of the new spacecraft are planned, with one having a mass of 14-metric tons and another of 20 tons. They will be capable of carrying four to six astronauts, according to earlier reports.

Li did not offer a timeline for the first crewed flight but stated the craft could also quickly be available for use to for missions to low Earth orbit, including the CSS.

“Once it has finished the demonstrations I think it will be very quick [sic] to use the new generation [spacecraft], because the new generation has reusable abilities…so the government can reduce the cost to fly to the space station,” Li explained.

Li presented at the International Astronautical Congress on the prospects for a next-generation recoverable satellite for commercial use, which will, apart from heat shielding, also be largely reusable. Li told SpaceNews that China’s Tianzhou spacecraft—designed to refuel and deliver cargo to the CSS—will also feature reusable aspects from Tianzhou-3 onwards.

Long March 5 success required

The planned 2019 mission will be a valuable test of both the 20-ton spacecraft and the Long March 5B, being developed by the China Academy of Launch Vehicle Technology (CALT).

If the flight is successful, the new launch vehicle could be cleared to launch the first module of the CSS in 2020.

The Long March 5B will also be human rated and is currently part of the early planning for potential crewed missions to the moon in the 2030s.

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The third Long March 5 components at a facility in Tianjin, north China, in October 2018. Credit: CCTV/frame grab

The tentative mission concept would involve launch of a spacecraft on a Long March 9 super heavy-lift launcher — currently in its early phases of development with a first flight planned for 2028-2030 — followed by astronauts launching on the next-generation crew spacecraft atop a Long March 5B. The lunar stack and crewed craft would then rendezvous and dock in low Earth orbit ahead of translunar injection.

The all-clear to proceed with launch of the Long March 5B and crewed spacecraft test mission is dependent on a successful return to flight of the 5-meter-diameter, 57-meter-tall Long March 5.

The Long March 5 suffered a failure in July 2017 traced to a damaged turbo-pump, prompting a redesign of the YF-77 cryogenic first-stage engines.

Footage aired Oct. 6 by China Central Television showed the components of the third Long March 5 undergoing final tests at a facility in Tianjin, north China. The rocket is expected to be shipped out of Tianjin around the end of the month for delivery to the Wenchang Satellite Launch Center on Hainan island, making launch of the rocket and its near-8-ton Shijian-20 communications satellite payload likely to take place in January.

Progress on China’s plans for a space station, lunar exploration with the Chang’e-5 lunar sample return, and a first independent interplanetary mission—to Mars in 2020—is reliant on a smooth flight.


China to launch unmanned test flight of next-generation crewed spacecraft in 2019 - SpaceNews.com
Manned spacecraft under development
By Zhao Lei | China Daily | Updated: 2018-10-26 07:47
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Visitors queue up to try out simulated games in front of a model of Tiangong-2 spacecraft at an aviation exhibition in Kunming, capital of Yunnan province. [Photo/China News Service]

Chinese engineers are developing the nation's second generation of manned spacecraft which will be tasked with servicing the country's space station and participating in manned lunar missions, said a researcher involved with the program.

The new-generation spacecraft, which has yet to be named, will have a new aerodynamic design that will be more streamlined than the Shenzhou series, China's first-generation manned spacecraft family, said Yang Lei, a senior designer at the China Academy of Space Technology, while speaking at the Fifth Manned Space Conference on Wednesday in Xi'an, Shaanxi province.

It will consist of two sections-a re-entry module that will house astronauts and control the entire craft during flight, and a service module that will contain power and propulsion systems, he said.

By comparison, the current Shenzhou-series spacecraft has three modules tasked with re-entry, orbiting and propulsion.

The new spacecraft will be reusable and will adopt a host of advanced technologies such as new heat-resistant materials, non-toxic propellants, human-computer interaction systems and high-performance solar batteries, Yang said, adding that its inner design and equipment layout will be more ergonomically friendly.

Yang said the China Academy of Space Technology has been carrying out experiments and tests on major components of the new spacecraft, and plans to conduct test flights atop the Long March 5B carrier rocket, which is also under development and is scheduled to make its maiden flight in June.

The new spacecraft will be used in China's future space programs including the space station, manned lunar missions and manned deep-space expeditions, he added.

Currently, only China and Russia have manned spacecraft. The United States hasn't had any manned spaceship since 2011 when it retired all space shuttles.

All three space powers are developing new manned spacecraft-the US is building the Orion Multi-Purpose Crew Vehicle, Dragon 2 and CST-100 Starliner, and Russia is working on its Federation spacecraft.

Zhang Hongtai, president of the academy, previously told reporters that the overall capability of the next-generation manned spacecraft will be much broader than that of the Shenzhou series and will be as good as the US and Russian prototypes.
 
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October 22, 2018
Launch of French-Chinese CFOSat satellite - CNES and CNRS join forces to study climate change in the world’s oceans

The French-Chinese CFOSat satellite will be launched on Monday 29 October atop a Chinese Long March 2C vehicle from the Jiuquan launch base in Inner Mongolia. This science mission to study ocean surface winds and waves is the first joint project pursued under French-Chinese space cooperation. Developed by CNES and the China National Space Administration (CNSA), the satellite will carry two radar instruments: SWIM (Surface Waves Investigation and Monitoring), developed by France, which will survey the length, height and direction of waves; and SCAT (wind SCATterometer), developed by China, which will measure the strength and direction of winds. The two instruments will enable measurements of winds and waves to be acquired simultaneously for the first time. CFOSat will thus characterize the dynamics of waves and how they interact with surface winds more comprehensively than ever before.

The CFOSat mission has been designed to gain new insights into ocean surface characteristics (winds and waves) and their impacts on the atmosphere-ocean exchanges that play a key role in the climate system. It will shed new light on the hitherto poorly understood role of waves in the lower layers of the atmosphere, the ocean surface and polar sea ice. Complementing other current Earth remote-sensing satellites, CFOSat will deliver crucial observations for atmospheric and sea-state forecasting and digital modelling of the coupled ocean-atmosphere system. The satellite will also provide precise data on deep-sea wave conditions, which have a bearing on the impact of waves on coastal areas.

The French scientific community is closely involved in the CFOSat mission through two research laboratories attached to the national scientific research centre CNRS: the LATMOS atmospheres, environments and space observations laboratory (CNRS/UVSQ/SU) and the LOPS physical and space oceanography laboratory (CNRS/IRD/Ifremer/UBO), which came up with the concept for the SWIM instrument, the first rotating-beam scatterometer of its kind. The instrument was developed by Thales Alenia Space with CNES oversight. French teams will task and monitor the SWIM instrument from the mission centre at the Toulouse Space Centre.

In recent years, LATMOS, LOPS and teams at the national weather service Meteo-France have been conducting research in readiness to use data collected by SWIM and SCAT—on the ocean surface, ocean/atmosphere interactions and severe weather events—and multiplying their efforts to prepare to validate these data for research and applications purposes. The teams have worked closely with industry partners specializing in satellite data processing and validation such as ACRI-ST, CLS and et Ocean Data Lab.

After a month or so checking out the instruments, the mission will be ready to deliver data to science teams at LATMOS, LOPS and the marine forecasting department of Meteo-France, who will then analyse and validate them. Data will be made available to the scientific community after six to seven months.

Looking forward to the launch, CNES President Jean-Yves Le Gall commented: “CFOSat materializes France and China’s commitment to tackling climate change and is the result of a unique partnership in this domain. CNES and CNRS, through their research laboratories and partners, are the standard-bearers of France’s excellence in innovative space technologies which, combined with China’s technological expertise, makes CFOSat such a unique satellite that is set to improve our knowledge and our ability to forecast climate phenomena between the ocean and atmosphere more accurately.”

Antoine Petit, Chairman & CEO of CNRS, the French national scientific research centre, added: “With the CFOSat satellite, scientists can look forward to new and original insights into ocean surface winds and waves that will inform their research into ocean and atmosphere processes. Teams at CNRS and CNES have been working to prepare this space mission for more than 10 years. They are now readying to validate and then use its data in a spirit of international cooperation.”



presse.cnes.fr | Launch of French-Chinese CFOSat satellite - CNES and CNRS join forces to study climate change in the world’s oceans
 
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