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

Go to a space forum and ask a space scientist what are some of the main determination to determine a country space technological prowess. I can assure you, it ain't about launching multiple mini cheap satellites with each weighing about 10lbs each. India boasting multi-satellite launch is a joke. LOL

Than why with all this capability you are unable to go beyond moon (That failed also)? If what you say is correct than you must have explored the space next to NASA. The fact is that you guys are behind US, Russia, Japan, Europe and India. Where are you guys in outer space? Do you have any assets in space including moon?
You can just say that launching a satellite to mars is nothing and launching 104 satellite is a joke but your president XI said that he takes proud in India's Mars mission as an Asian country and your government mouth piece news paper said that China is legging behind India in space race. They advice your space agency to learn from India. You guys just good for bragging and boating on PDF and nothing else. Reality is totally different from what you say. Nobody takes you seriously.
 
Than why with all this capability you are unable to go beyond moon (That failed also)? If what you say is correct than you must have explored the space next to NASA. The fact is that you guys are behind US, Russia, Japan, Europe and India. Where are you guys in outer space? Do you have any assets in space including moon?
You can just say that launching a satellite to mars is nothing and launching 104 satellite is a joke but your president XI said that he takes proud in India's Mars mission as an Asian country and your government mouth piece news paper said that China is legging behind India in space race. They advice your space agency to learn from India. You guys just good for bragging and boating on PDF and nothing else. Reality is totally different from what you say. Nobody takes you seriously.
First, nobody had gone beyond the moon. Two, putting a low-tech probe like you did in Mars is nothing to be impress about. We have the capability to send not just a probe but a rover to Mars in the next few years, 2020 to be sure. Lastly as far as I'm concern, you don't really understand how space tech and rocket works. There are 4 level of rocket.

1. The low weight rockets - the one that can put object to Earth orbit.
2. The mid weight rockets - the one that can put a probe to other planet
3. The high weight rockets - the one that can put a rover size robot to other planet.
4. The super high-weight rockets - the one that can put a module large enough to fit multiple human being into space.

Right now, we are at level 3 going to going 4. You are stuck at level 2 with low tech Mars probe. And i'm not even talking about the level tech sophistication in each level so honestly I have no idea what the heck you are talking about. You have not even put a human into space and have no knowledge in how to dock a spacecraft in space or land a rover in another planet.

Don't mistake us testing not going to Mars now with lacking the ability to do so. We have a economic reason to go to the Moon and think about Mars later as a foundation of human exploration. Even now the US is reconsidering putting more fund to go back to the Moon rather than funding more to the Mars project. There is a reason for it.
 
China develops sea launches to boost space commerce
Source: Xinhua| 2017-07-07 12:59:00|Editor: An



BEIJING, July 7 (Xinhua) -- China has a clear plan to provide sea launches for commercial payloads to be carried by Long March rockets, according to an aerospace official.

Tang Yagang, vice head of the aerospace division of the No.1 institute of the China Aerospace Science and Technology Corporation (CASTC), said that the technology is not difficult and a sea launch platform can be built based on modifying 10,000-tonne freighters.

China will use solid carrier rockets which rely less on launch facilities and feature mature technology, Tang said, adding that key technology for the carrier rockets will be tested at sea this year and the service is expected to be available for international users in 2018.

At that time, Long March launch vehicles will be able to send satellites weighing 500 kilograms to a 500-kilometer-high sun-synchronous orbit with an inclination of zero to ten degrees, Tang said.

Countries in the equator region have growing needs for launching near-equatorial and low-inclination satellites, said Fu Zhiheng, deputy general manager of China Great Wall Industry Corporation, affiliated to the CASTC.

"The closer to the equator we launch a satellite, the less carrying capacity it will lose, and the lower the cost will be," Fu said, adding that space powers are competing to develop near-equatorial sea launches.

Currently, Long March carrier rockets have provided 60 commercial launches for domestic and international users, Fu said.
 
Surprise, relief as China’s key satellite makes it to orbit despite rocket launch failure
But the communication probe may have wiped two or three years off its lifespan by burning precious fuel to get back on track, scientist says

Chinese space authorities say an important communication satellite is now where it should be after it veered off course during a failed rocket launch last month.

The ChinaSat 9A probe was steered towards its target orbit on Wednesday, the China Aerospace Science and Technology Corporation said. It had ended up in the wrong orbit after the unsuccessful launch of the Long March 3B, or CZ-2B, on June 19.

That was followed by another setback for the space programme on Sunday, when the Long March 5 Y2 rocket carrying the Shijian-18 – an experimental satellite and the heaviest built by China – plunged into the Pacific Ocean. The two failures have raised concerns about possible delays to Beijing’s ambitious space missions, which include lunar exploration.

The corporation, which carries out most of the country’s space activities, said the satellite’s small thrusters had been fired up 10 times via its flight control centre in Xian, Shaanxi province. On Thursday it reached and remained at a fixed point above the equator in Southeast Asia – its original destination.

More....
http://m.scmp.com/news/china/polici...se-relief-chinas-key-satellite-makes-it-orbit
 
Surprise, relief as China’s key satellite makes it to orbit despite rocket launch failure
But the communication probe may have wiped two or three years off its lifespan by burning precious fuel to get back on track, scientist says

Chinese space authorities say an important communication satellite is now where it should be after it veered off course during a failed rocket launch last month.

The ChinaSat 9A probe was steered towards its target orbit on Wednesday, the China Aerospace Science and Technology Corporation said. It had ended up in the wrong orbit after the unsuccessful launch of the Long March 3B, or CZ-2B, on June 19.

That was followed by another setback for the space programme on Sunday, when the Long March 5 Y2 rocket carrying the Shijian-18 – an experimental satellite and the heaviest built by China – plunged into the Pacific Ocean. The two failures have raised concerns about possible delays to Beijing’s ambitious space missions, which include lunar exploration.

The corporation, which carries out most of the country’s space activities, said the satellite’s small thrusters had been fired up 10 times via its flight control centre in Xian, Shaanxi province. On Thursday it reached and remained at a fixed point above the equator in Southeast Asia – its original destination.

More....
http://m.scmp.com/news/china/polici...se-relief-chinas-key-satellite-makes-it-orbit
That was a lucky shot, we managed to only use up 2-3 years fuel, still not an excuse for this failure.
 
China’s quantum satellite adds two new tricks to its repertoire
Era of ultrasecure communication inches closer

11:00am, July 7, 2017
By Emily Conover

070617_EC_quantum-satellite_main.jpg
BEAM ME UP, SCOTTY China’s quantum satellite has met two more milestones, performing quantum teleportation and transmitting quantum encryption keys through space. Scientists teleported the properties of photons, or particles of light, from a ground station in Tibet (shown in this composite photo) to the satellite.
Xinhua/Alamy

A record-breaking quantum satellite has again blown away the competition, achieving two new milestones in long-distance quantum communications through space.

In June, Chinese researchers demonstrated that the satellite Micius could send entangled quantum particles to far-flung locations on Earth, their properties remaining intertwined despite being separated by more than 1,200 kilometers (SN Online: 6/15/17). Now researchers have used the satellite to teleport particles’ properties and transmit quantum encryption keys. The result, reported in two papers published online July 3 and July 4 at arXiv.org, marks the first time the two techniques have been demonstrated in space.

In quantum teleportation, the properties of one particle are transferred to another. The scientists first sent particles of light, or photons, from the ground to the satellite — a distance of up to 1,400 kilometers. When the researchers made particular measurements of other photons on the ground, the spacefaring particles took on the properties of the landlubbers, thanks to quantum entanglement between the earthbound and satellite-based particles. Although it’s a far cry from the Star Trek variety of teleportation, the process is an important ingredient of quantum communication.

Quantum key distribution is a method of creating a secret string of random numbers that can be used to encrypt communications. The researchers beamed photons from the satellite to Earth over distances of up to 1,200 kilometers, using the photons’ polarization, the orientation of their electromagnetic waves, to transmit a string of random numbers with utmost security.

Quantum communication via satellite can reach greater distances than land-based transmission, because in space, particles don’t get absorbed by the atmosphere. The new results pave the way for a global quantum internet that would provide for ultrasecure communications and allow quantum computers to work together.

Citations
J.-G. Ren et al. Ground-to-satellite quantum teleportation. arXiv:1707.00934. Posted July 4, 2017.
S.-K. Liao et al. Satellite-to-ground quantum key distribution. arXiv:1707.00542. Posted July 3, 2017.

China’s quantum satellite adds two new tricks to its repertoire | Science News
 
That was a lucky shot, we managed to only use up 2-3 years fuel, still not an excuse for this failure.
A bit strange since all experts incl the head of your launches mr long said that life would be reduced by 10 years .
 
Video of aerospace exhibition in Hong Kong.
 
Data of China's first X-ray space telescope to be open to global scientists
By Quan Xiaoshu, Yu Fei, Qu Ting (Xinhua) 14:23, July 19, 2017

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China's first X-ray astronomical satellite, launched in mid June, is expected to start regular observation in November and its data will be open to scientists all over the world, say the main designers of the satellite's data system.

The 2.5-tonne Hard X-ray Modulation Telescope (HXMT), dubbed Insight, transmitted to a ground station its first data on its second day in orbit. The data proved to be of good quality, and the telescope detected a gamma-ray burst 10 days after its launch.

HXMT carries a trio of detectors -- the high energy X-ray telescope (HE), the medium energy X-ray telescope (ME) and the low energy X-ray telescope (LE) -- that cover a broad energy band from 1 keV to 250 keV. It will help scientists better understand the evolution of black holes and the strong magnetic fields and interiors of pulsars.

"We will finish calibrating all instruments within the first five months in orbit before Insight starts regular observation," said Song Liming, deputy chief designer of the HXMT science ground segment and a scientist with the Institute of High Energy Physics (IHEP) of the Chinese Academy of Sciences (CAS).

Song and his team solicited observation proposals from scientists around the country last year, and drew up a one-year observation plan after evaluating 90 proposals from six CAS institutes and 10 universities.

"After starting regular observation, the telescope will spend 30 to 40 percent of its first year scanning the Galactic plane and the rest of the time on pointing observation," said Qu Jinlu, deputy chief designer of the HXMT science ground segment and a scientist with IHEP.

"We divide the galactic plane into 19 sky zones. It will take the telescope over two hours to scan each and about two days to finish the whole, if we don't count the time to avoid the sun," said Qu.

Insight will see recurrent or even periodic outbursts of known sources, and is good at searching for new sources that are transiently bright in X-rays.

"If the telescope detects a new source, we will assess its scientific value right away to decide whether it's worth a pointing observation," Qu explained.

Song said experts who have contributed to the HXMT project, both at home and abroad, and those who see their proposals adopted can access and use the observation data exclusively for one year, in line with international practice.

"After one year, the data will be open to everybody. Even middle school students will be able to download our data, if they are interested," Song said.

Song's team will build a calibration database and offer more than 300 data products.

"We will process the original data into products that are up to international standards, so that it's easy for scientists from around the world to analyze for further information, such as the energy spectrum or light curve," Song said.

Before joining the science ground segment, Song was researching the high-energy radiation of pulsars. "The biggest challenge for me was changing from a user to a designer," he said.

Song, like most domestic astronomers, relied on data from foreign satellites in his research, but had never thought how to build a data system.

"How do we make our data available to users? What kind of products shall we offer? We knew nothing when we first started setting up the ground segment," he said.

Song and his co-workers went abroad to learn by asking all kinds of "silly" questions. But sometimes, they had to figure out answers by themselves.

"For example, we had no idea where the background data of those foreign satellites come from, which forced us to study the problem from the very beginning," he said, "We got to know the whole structure and detailed procedures when building the science ground segment, which is our biggest achievement and will help us better support new satellites in future."
 
China’s quest to become a space science superpower
With major spaceflight milestones behind it, China is working to build an international reputation for space science.

WEB_01_GettyImages-670743682.jpg
VCG/Getty
This Long March-7 rocket carried a cargo craft to the Tiangong-2 space lab in April.


Time seems to move faster at the National Space Science Center on the outskirts of Beijing. Researchers are rushing around this brand-new compound of the Chinese Academy of Sciences (CAS) in anticipation of the launch of the nation's first X-ray telescope. At mission control, a gigantic screen plays a looping video showcasing the country's major space milestones. Engineers focus intently on their computer screens while a state television crew orbits the room with cameras, collecting footage for a documentary about China's meteoric rise as a space power. The walls are festooned with motivational slogans. “Diligent and meticulous,” says one. “No single failure in 10,000 trials,” encourages another.


---> China’s quest to become a space science superpower : Nature News & Comment
 
First Mars simulation base to be built in Northwest China
By Wu Yan | chinadaily.com.cn | Updated: 2017-07-26 11:18

China's first Mars simulation base will be built in Northwest China's Qinghai province, China News Service reported on Tuesday.

Located in Dachaidan Hongya region of Haixi Mongolian and Tibetan autonomous prefecture, a hinter land of Qinghai-Tibet Plateau, the base will be established in Qaidam Basin. The area's landform, natural landscape and climate condition resemble closely to those of Mars, said Wang Jingzhai, the prefecture's deputy Party chief.

Spread over 95,000 square kilometers of desert, the area has China's largest Yadan landform, or dry areas with wind erosion landscape. It also has other elements, such as mountain, prairie, Gobi desert, river and lake.

Adjacent to many tourist attractions along the Hexi Corridor, a part of the Silk Road in Gansu province, the Mars simulation base will be turned into a cultural and tourist experience base that combine elements of "science, science fiction, nature, ecology and culture", said Liu Xiaoqun, director of lunar and deep space exploration general department, Chinese Academy of Sciences.

The base will comprise two functional areas - "Mars community" and "Mars campsite" - which will be connected by road but invisible to each other, Liu said.

As the only one of its kind in China, the base has filled the gap in science practice education base that combines the fields of space, astronomy, geology, meteorology and new energy, Liu said.
 

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