People's Daily, China
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.
The Republic Of China (Chinese Taipei) Solid Propellant Satellite Launch Vehicle ProgramThe Republic Of China (Chinese Taipei) Lunar Exploration Program
This is about the lesser known Republic Of China (R.O.C.) Lunar Exploration Program, as R.O.C. is part of China (P.R.C.).
Space Development Phase 3
Latest update: 2019/02/13 14:56
The Phase 3 plan for space exploration will last for 10 years. From 2019 to 2028, the investment will be NT$25.1 billion.
The space exploration project for Space Development Phase 3 will also develop at least one lunar orbiter.
Lin Junliang said that the First Phase must carry out the design and research of the Lunar Orbiter, and the Second Phase is the Lunar Lander. Since the orbiting the moon is different from the earth low-orbiting satellite, their is needs to have the sound ground communication technology, radiation resistance and orbital manoeuvering foundations.
https://www.cna.com.tw/news/ait/201902130125.aspx
▲ 1. National Space Organization (NSPO) space development roadmap, 2019-2028.
Orbiting internet satellite system to begin trial runChina begins space-based broadband project
By Zhao Lei at Jiuquan Satellite Launch Center | chinadaily.com.cn | Updated: 2018-12-22 08:18
The first satellite in the Hongyun project, which was planned by China Aerospace Science and Industry Corp (CASIC) to be the country's first low-orbit broadband communications satellite constellation, was launched on Saturday at 7:51 am on a Long March 11 carrier rocket at the Jiuquan Satellite Launch Center in northwestern China. [Photo by Li Jin/Provided to chinadaily.com.cn]
China launched a communications satellite on Saturday, marking the start of construction of a vast space-based communications network capable of covering the entire world with broadband internet service.
The first satellite in the Hongyun project, which was planned by China Aerospace Science and Industry Corp (CASIC) to be the country's first low-orbit broadband communications satellite constellation, was launched on Saturday at 7:51 am on a Long March 11 carrier rocket at the Jiuquan Satellite Launch Center in northwestern China.
The spacecraft is tasked with verifying basic designs of Hongyun satellite and demonstrating low-orbit broadband communications technologies.
Its main payloads are Ka-band transponders and transmission antennae. It also carries several scientific and technical devices to explore Hongyun system's applications in scientific research, environmental survey as well as air and sea transportation, CASIC said in a statement.
Weighing 247 kilograms, the satellite works in a sun-synchronous orbit about 1,100kilometers above earth. It is powered by solar arrays and has a design life of one year, but is expected to operate longer, according to Xiang Kaiheng, Hongyun's chief designer at CASIC Space Engineering Development Co Ltd in Beijing, which is responsible for developing and running the Hongyun constellation.
After a yearlong in-orbit technological demonstration by the satellite, CASIC plans to launch four mass-production Hongyun satellites before the end of 2020 to form a small network for Hongyun's trial run, he said.
The Hongyun project, started by CASIC in September 2016, aims to build a space-based communications network to provide broadband internet connectivity to users around the world, especially those in underserved regions.
CASIC currently intends to place more than 150 Hongyun satellites on orbits about 1,000 kilometers above the ground around 2023, while the constellation is likely to be further expanded in response to market demands, the designer said.
Globally, the concept of running a low-cost, high-performance satellite network to provide space-based communications and internet services has become popular among industry players.
The United States' SpaceX launched two experimental satellites last month to test technologies for its Starlink project, in which tech tycoon Elon Musk proposes to put a total of nearly 12,000 satellites into orbit by the mid-2020s.
Another US firm, OneWeb, plans to launch a satellite constellation of 648 low-Earth orbit microsatellites by the end of 2019, though few developments have been reported.
China's space research finds microgravity promotes iPS cells regenerative potentialPUBLIC RELEASE: 6-MAR-2019
Effects of spaceflight on heart cell formation from stem cells
MARY ANN LIEBERT, INC./GENETIC ENGINEERING NEWS
Stem Cells and Development is dedicated to communication and objective analysis of developments in the biology, characteristics, and therapeutic utility of stem cells, especially those of the hematopoietic system.
CREDIT: Mary Ann Liebert, Inc., publishers
New Rochelle, NY, March 6, 2019-Researchers used time-lapse imaging to show that mouse induced pluripotent stem cells (iPSCs) grown during spaceflight differentiated into cardiomyocytes significantly faster than similar cells grown at Earth's gravity. The robust cardiomyocyte formation at microgravity, which lasted for 10 days, is described in an article published in Stem Cells and Development, a peer-reviewed journal from Mary Ann Liebert, Inc., publishers. Click here to read the full-text article free on the Stem Cells and Development website through April 6, 2019.
Jin Zhou and Changyong Wang, Academy of Military Medical Sciences (Beijing, China), Jie Na, Tsinghua University (Beijing), and a team of Chinese researchers from these institutions and Chinese Academy of Sciences (Shanghai), coauthored the article entitled "Real Microgravity Promotes Myocardial Differentiation of Induced Pluripotent Stem Cells: Results from Tianzhou-1 Space Mission."
"Good ideas are two-a-penny, but data are gold. As we move to embrace the potential of space for regenerative medicine, as well as make our preparations for manned space travel, all relevant valuable data deserve careful consideration," says Editor-in-Chief Graham C. Parker, PhD, The Carman and Ann Adams Department of Pediatrics, Wayne State University School of Medicine, Detroit, MI.
Effects of spaceflight on heart cell formation from stem cells | EurekAlert! Science News
