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Researchers in China make breakthroughs in space technology
  • Staff Reporter
  • 2015-03-08
  • 09:41 (GMT+8)
Scientists in China have produced a Hall effect thruster and a hollow-cathodes lamp (HCL) that may have the world's longest life, reports Duowei News, a US-based Chinese-language news outlet.

The 801st Research Institute of China Aerospace Science and Technology Corporation (CASC)'s Sixth Academy (the Academy of Aerospace Propulsion Technology) said it has produced a thruster which may last for 18,000 hours and a lamp which can last 75,000 hours. Currently a thruster's life is determined by how long it is used, while there is no internationally recognized measurement for a lamp's life.

The institute has carried out the research on the two items for over three years. Its researchers made the breakthrough on the Chinese New Year's Eve this year, which fell on Feb. 18.

The power of the Hall effect thrusters developed by the institute ranged from 0.1KW to 5KW. They will be used on geosynchronous satellites, low-Earth-orbit satellites, space probes and large manned spacecraft since the thrusters could greatly improves their lifespan and overall performances.

Satellites and space probes powered by the thruster require will require less fuel then their counterparts powered by chemical fuels. That could increase their payloads since they could make better use of the extra room formerly occupied by fuel. If the Chinese satellite Dong Fang Hong 4 replaces its two large chemical-fuel tanks with the Hall thruster, it can reduce the amount of fuel it carries by 80% and its weight from 4.8 tons to 1.9 tons.

The thruster is perfect for exploring Mars, asteroids and the edge of the universe since the spacecraft used to carry out such missions cannot solely rely on chemical propulsion.

Researchers in China make breakthroughs in space technology|Culture|News|WantChinaTimes.com

In China, Quantum Communications Comes of Age

Physicists Aiming for Tough-to-Hack, Lightning-Fast Network for Military and Official Use
  • February 9, 2015
Wang Zhao—AFP/Getty Images
A boy runs in a moon exhibition at an astronomy museum in Beijing.

This may be a quantum leap year for an initiative that accelerates data transfers close to the speed of light with no hacking threats through so-called quantum communications technology.

Within months, China plans to open the world’s longest quantum communications network, a 2,000 kilometer electronic highway linking government offices in the cities of Beijing and Shanghai.

Meanwhile, the country’s space scientists are preparing a communications satellite for a 2016 launch that would be a first step toward building a quantum communications network in the sky. It is hoped this and other satellites can be used to overcome technical hurdles, such as distance restrictions, facing land-based systems.

Physicists around the world have spent years working on quantum communications technology. But if all goes as planned, China would be the first country to put a quantum communications satellite in orbit, said Wang Jianyu, Deputy Director of the China Academy of Science’s (CAS) Shanghai branch.

At a recent conference on quantum science in Shanghai, Wang said scientists from CAS and other institutions have completed major research and development tasks for launching the satellite equipped with quantum communications gear.

The satellite program’s basis for success was confirmed by China’s leading quantum communications scientist, Pan Jianwei, a CAS academic who is also a professor of quantum physics at the University of Science and Technology of China (USTC) in Hefei, in the eastern province of Anhui. Pan said researchers reported significant progress on systems development after conducting experiments at a test center in Qinghai province, in the northwest.

The satellite would be used to transmit encoded data through a method called quantum key distribution (QKD), which relies on cryptographic keys transmitted via light-pulse signals. QKD is said to be nearly impossible to hack, since any attempted eavesdropping would change the quantum states and thus could be quickly detected by data flow monitors.

A satellite-based quantum communications system could be used to build a secure information bridge between the nation’s capital and Urumqi, the capital of the restive Xinjiang Uyghur Autonomous Region in the west, Pan said.

It’s likely the technology initially will be used to transmit sensitive diplomatic, government policy, and military information. Future applications could include secure transmissions of personal and financial data.

Plans call for China to put additional satellites into orbit after next year’s groundbreaking launch, Pan said, without divulging how many satellites might be deployed or when. He did say that China hopes to complete a QKD system linking Asia and Europe by 2020, and have a worldwide quantum communications network in place by 2030.

Success Stories
In 2009, China became the first country in the world to put quantum communications technology to work outside of a laboratory.

In October of that year, a team of scientists led by Pan built a secure network for exchanging information among government officials during a military parade in Beijing celebrating the 60th anniversary of the People’s Republic. The demonstration underscored the research project’s key military application.

“China is completely capable of making full use of quantum communications in a regional war,” Pan said. “The direction of development in the future calls for using relay satellites to realize quantum communications and control that covers the entire army.”

The country is also working to configure the new technology for civilian use.

A pilot quantum communications network that took 18 months to build was completed in February 2012 in Hefei. The network, which cost the city’s government 60 million yuan, was designed by Pan’s team to link 40 telephones and 16 video cameras installed at city government agencies, military units, financial institutions, and health care offices.

A similar, civilian-focused network built by Pan’s team in Jinan, the provincial capital of the eastern province of Shandong, started operating in March 2014. It connects some 90 users, most of whom tap the network for general business and information.

In late 2012, Pan’s team installed a quantum communications network that was used to securely connect the Beijing venue hosting a week-long meeting of the 18th National Congress of the Communist Party, with hotel rooms where delegates stayed, as well as the Zhongnanhai compound in Beijing where the nation’s top leaders live and work.

Next on the development agenda is opening the network linking Beijing and Shanghai. Pan is leading that project as well.

If all goes as planned, Pan said, existing networks in Hefei and Jinan eventually would be tied to the Beijing-Shanghai channel to provide secure communications connecting government and financial agencies in each of the four regions. The new network could be operating as early as 2016.

No Room for Hype

A quantum code expert said that so far quantum communications technology development efforts in China have basically focused on protecting national security. “How important it will be for the public and in everyday life are questions that remain unanswered,” said the expert.

To date, Pan said, technical barriers and the high costs of systems development have kept private capital out of what’s now almost exclusively a government initiative. Moreover, it’s still too early to tell whether the technology has any potential commercial value.

Pan has warned the public not to listen to investment come-ons that hype the moneymaking potential of quantum communications businesses. At this stage of the game, he said, the focus is still on technological development, not commercial applications.

Nevertheless, since 2009 USTC has been building a commercial enterprise called Anhui Quantum Communication Technology Co. to produce equipment based on technology developed by Pan and his team. The company is China’s largest quantum communications equipment supplier. Last September, it said it had started mass-producing quantum cryptography equipment.

Anhui Quantum General Manager Zhao Yong said the company’s clients include financial institutions and government agencies seeking to supplement, not replace, conventional communications systems. Their shared goal, he said, is to improve data security.

Once the technology has matured, said Wang Xiangbin, a physicist at Beijing’s Tsinghua University, its range of applications should be targeted to specific industries and regions because its high barrier in technology and costs. Quantum communications is not a technology suitable for mass use via the Internet, for example, Wang told a group of scientists at a 2012 seminar.

Some experts say it’s wrong to assume that quantum communications is a flawlessly secure means of transmitting information. Another Tsinghua physics professor, Long Guilu, said quantum communication is only theoretically safe, since malfunctioning equipment or operational errors can open doors to risk.

Experimental systems built in 2007 by Chinese and U.S. physicists reportedly achieved secure QKD transmissions between two points more than 100 kilometers apart. But the experiment also taught scientists that data can be intercepted by a third party during a transmission.

In addressing the naysayers, Pan admitted that quantum communications is not perfect. But he defended it as safer than conventional means of communication. In fact, he said, no means of protecting data is more secure than quantum communications.

To test the capacity and safety of the network linking Beijing and Shanghai, Pan said his team plans to ask other communications experts to carefully study the system and look for potential security holes. The network could then be modified in ways that close any detected gaps and reduce hacking risks.

“Assessments and testing will be conducted after the network is completed,” said Pan, who remains convinced that any network using quantum cryptographic technology is more secure than any other communications channel.

Pan has been working on quantum communications technology since the late 1990s, when he was a researcher at the University of Vienna and working in a partnership with Austrian physicist Anton Zeilinger. That team is credited with developing the first protocol for quantum communications.

Pan worked with Zeilinger about a decade after U.S. physicist Charles Bennett and colleagues at IBM Research built the world’s first functioning quantum cryptographic system. Based on their research, the first network was installed in the U.S. city of Boston.

Like their counterparts in China, researchers in the United States, Japan, and European countries continue work to advance the technology. A key effort is aimed at extending that potential reach of quantum communications systems, which for years were used only to span short distances.

Some experts have even wondered whether the new technology has been misidentified, since its key feature is high-level cryptography, not electronic communications.

“What we can do now is merely encrypt data, which is far from real quantum communications,” said one expert who declined to be named. “Theoretically it can’t be hacked, but in practice it has many limitations.”

Guo Guangcan, Director of USTC’s quantum communications lab, said networks now operating and those being built in China “achieve encryption only,” whereas true communications networks “involve content.”

“It’s not accurate to call it quantum communications,” said Guo.

Whatever it’s called, China appears determined to push ahead with the research and development that paves the way for a new era of secure communications. And according to Pan, that era is still at least a decade away.

“It will take 10 to 20 years to really put [the technology] into practice,” said Pan.
 
China's Yutu rover reveals Moon's "complex" geological history
Source:Xinhua Published: 2015-3-13 11:07:20

The moon's geological history is more complex than previously thought, preliminary results from China's first lunar rover, Yutu, suggested Thursday.

Ground-penetrating radar measurements taken by Yutu, also known as Jade Rabbit, revealed at least nine subsurface layers beneath its landing site, indicating that multiple geologic processes have taken place there.

"We have for the first time detected multiple subsurface layers (on the moon)," said lead author Xiao Long, professor of the China University of Geosciences in Wuhan, attributing these layers to ancient lava flows and the weathering of rocks and boulders into regolith, or loose layers of dust, over the past 3.3 billion years or so.

One of the most interesting findings is a layer at depths of 140 meters to 240 meters, said Xiao, who is also professor of Macau University of Science and Technology.

"We think this layer is probably pyroclastic rocks which formed during the course of volcanic eruptions," Xiao told Xinhua via email. "It reveals the diversity of volcanic activity, but what's more important is that it shows there are plenty of volatile contents inside the moon."

Yutu is part of China's Chang'e-3 moon mission, which delivered the rover and a stationary lander to the lunar surface on Dec. 14, 2013, marking the first moon landing since the Soviet Union's Luna 24 mission in 1976.

It touched down on the northern Mare Imbrium, also called Sea of Rains, a region not directly sampled before and far from the U. S. Apollo and Luna landings sites.

Yutu traveled a total of 114 meters following a zigzagging route, then came to a halt about 20 meters to the southwest of the landing site due to mechanical problems.

So the rover just surveyed a small area using two radar antennas capable of penetrating the Moon's crust to depths of about 400 meters.

The data, however, were enough to show its landing site is compositionally distinct from previous Moon-landing sites, the researchers said.

"Overall, we have already had a general scientific understanding of the moon thanks to these lunar missions," Xiao said. "But if we want to have a comprehensive understanding of moon's geological structure, material composition and formation, as well as its evolution, a large number of exploration events are still needed. Meanwhile, effective international cooperation is a must considering the high cost of these activities."

The findings were published in the US journal Science.
 
Yutu Peers Inside the Moon
Data from the Chinese Chang’E 3 lander show what’s under the lunar surface.
By Paul D. Spudis
airspacemag.com March 12, 2015 2:00PM


Although China’s lunar lander, Chang’E 3, landed on the Moon over two years ago, scientific results from its small rover Yutu are just now being published. A new paper out this week by Long Xiao and colleagues gives us a first look at the geology of a new location on the Moon. The site is on the Moon’s near side in northern Mare Imbrium, far from the Apollo and Soviet Luna landing sites. This new information (giving insights into the late volcanic history of the Moon) is surprisingly detailed.


yutu_traverse.jpg

Traverse map of the Yutu rover, showing locations where various measurements were made. Inset image shows the Chang’E 3 lander and Yutu on a high-resolution image taken by the Lunar Reconnaissance Orbiter. (Xiao et al., 2015)

More -> Yutu Peers Inside the Moon | Daily Planet | Air & Space Magazine

*****

A young multilayered terrane of the northern Mare Imbrium revealed by Chang’E-3 mission

Science 13 March 2015:
Vol. 347 no. 6227 pp. 1226-1229
DOI: 10.1126/science.1259866

Abstract
China’s Chang’E-3 (CE-3) spacecraft touched down on the northern Mare Imbrium of the lunar nearside (340.49°E, 44.12°N), a region not directly sampled before. We report preliminary results with data from the CE-3 lander descent camera and from the Yutu rover’s camera and penetrating radar. After the landing at a young 450-meter crater rim, the Yutu rover drove 114 meters on the ejecta blanket and photographed the rough surface and the excavated boulders. The boulder contains a substantial amount of crystals, which are most likely plagioclase and/or other mafic silicate mineral aggregates similar to terrestrial dolerite. The Lunar Penetrating Radar detection and integrated geological interpretation have identified more than nine subsurface layers, suggesting that this region has experienced complex geological processes since the Imbrian and is compositionally distinct from the Apollo and Luna landing sites.
 
China to open moon exploration program to private firms

BEIJING Tue Mar 17, 2015 5:08am EDT


BEIJING (Reuters) - The Chinese government will open up its ambitious moon exploration program to private companies rather than simply relying on the state-owned sector as before, hoping to boost technological breakthroughs, a major newspaper said on Tuesday.

The next mission to the moon, to be carried out by the Chang'e 4 probe in the next two years or so, will serve as a platform "for technological research and development, product tests as well as data application" for private companies, the official China Daily said, citing a government statement.

"The move will help break the monopoly in the space field, accelerate technological innovation, reduce the government's investment and improve efficiency," added the statement, released by the State Administration of Science, Technology and Industry for National Defence, which oversees the space program.

The English-language newspaper cited an unnamed source as saying China should learn from the example of the United States, which has shown the "obvious" benefits of private enterprise getting involved.

"The U.S. opened its space program to the private sector a long time ago, and the National Aeronautics and Space Administration has allowed private companies to conduct near-Earth manned missions. By contrast, our State-owned enterprises still hold a tight grip on the industry," the source said.

"Those private companies will invest to innovate. Their participation will reduce the government financial input. And more members of the public will get involved in our space exploration program."

China has been moving to develop its space program for military, commercial and scientific purposes, but it is still playing catch-up to established space powers the United States and Russia.

China's Jade Rabbit moon rover landed on the moon in late 2013 to great national fanfare, but soon began experiencing severe technical difficulties.

The Jade Rabbit and the Chang'e 3 probe that carried it there marked the first "soft landing" on the moon since 1976. Beforehand, both the United States and the Soviet Union accomplished the feat.

(Reporting by Ben Blanchard; Editing by Ryan Woo)

China to open moon exploration program to private firms| Reuters
 
Ignition Test of China's Largest Rocket Succeeds

The engine ignition test of the Long March 5 Series Launch Vehicle succeeded on Monday afternoon in Beijing, a key step to ensure the launch of the carrier rocket next year.

The test aimed to check the first stage of the carrier rocket, which is 33 meters long and five meters in diameter. With a larger size, this first-stage vehicle will provide greater thrust for the Long March 5 carrier rocket, which is planned to be launched into space in 2016.

The eight minute test showed all systems are in stable condition.

The Long March 5 is China's largest rocket with the greatest carrying capacity.
 
China to launch Chang'e-5 around 2017

(Xinhua) 09:13, March 24, 2015

FOREIGN201503240914000596667103182.jpg

The Long March-5 rocket(File photo)

BEIJING, March 23 -- The second ground test of the power system of China's next-generation carrier rocket was completed Monday, ahead of its first flight in 2016.

Using non-toxic, non-polluting liquid propellant, the engines of Long March-5 were test-fired on the ground to test current technology, said Tan Yonghua, head of the Academy of Aerospace Propulsion Technology.

Long March-5 was first test-fired on Feb. 9 this year.

According to Xu Dazhe, head of the State Administration of Science, Technology and Industry for National Defense, Long March-5 will increase China's ability to enter the space by at least 2.5 times, largely improving the country's carrier rocket.

The Long March-5 rockets, designed for the final chapter of China's three-step -- orbiting, landing and returning -- lunar program, will have a payload capacity of 25 tonnes to low Earth orbits, or 14 tonnes to geostationary transfer orbit.

"The Chang'e-5 lunar mission is undergoing intensive development and is scheduled to be launched with a Long March-5 carrier rocket from south China's Hainan Province around 2017," said Xu.

China started work on carrier rockets in 1950s. Long March rockets have since become the main carriers for satellites, probes and manned spacecrafts.

In December 2014, the CBERS-4 satellite, jointly developed with Brazil, was launched from the Taiyuan base by Long March-4B rocket, the 200th launch of the Long March rocket family, making China become the third country, after the United States and Russia, to complete 200 carrier rocket launches.

China to launch Chang'e-5 around 2017 - People's Daily Online
 
Why it keep on delaying? From say 2016 , now to 2017? CZ-5 sending space station tiangong 2 set to launch in 2016 and how it is going to do it in 2016?

If I am Xi, I will order a space race and order CZ-5 is country greatest priority with any resources pour into it. What is wrong with CSA?
 
Why it keep on delaying? From say 2016 , now to 2017? CZ-5 sending space station tiangong 2 set to launch in 2016 and how it is going to do it in 2016?

If I am Xi, I will order a space race and order CZ-5 is country greatest priority with any resources pour into it. What is wrong with CSA?

Relax have a cup of fine Oolong tea, appreciate many of our finest arts and culture

We wont be dying with 1-year postponement
Safety and reliability are paramount above all else

images
n
Chinese Art print Painting
 
Relax have a cup of fine Oolong tea, appreciate many of our finest arts and culture

We wont be dying with 1-year postponement
Safety and reliability are paramount above all else

images
n
Chinese Art print Painting

Its not about safe or not. Its the CSA being stingy and always trying to get the best buck out of everything which mean date delays. We all know CSA is always on tight budget compare to NASA or European Space Agency.
I hope Xi order a top priority for space capabilities and pour in huge resources so as to speed things up.

AIIB victory is a massive step for China softpower over the US. The next I hope will be the China space station. If China is going to score another victory in space power over US in pulling over allies to join CSA and isolate USA. It will be another boast for China increasing diplomatic power and image. Convince the rest of the world, the decline of USA. Delaying the launching of space staion will only result in subsequent repercussion effect.
 
Its not about safe or not. Its the CSA being stingy and always trying to get the best buck out of everything which mean date delays. We all know CSA is always on tight budget compare to NASA or European Space Agency.
I hope Xi order a top priority for space capabilities and pour in huge resources so as to speed things up.

AIIB victory is a massive step for China softpower over the US. The next I hope will be the China space station. If China is going to score another victory in space power over US in pulling over allies to join CSA and isolate USA. It will be another boast for China increasing diplomatic power and image. Convince the rest of the world, the decline of USA. Delaying the launching of space staion will only result in subsequent repercussion effect.

Neither am I too carried away by the AIIB hype nor losing sleep over this 1-year postponement. We are not known for tardiness but 1-year is acceptable for challenging projects

I am sipping my oolong tea and looking at the superb beauty of my beloved homeland in the greatest arts and culture on the net

Cheers

images
 
Why it keep on delaying? From say 2016 , now to 2017? CZ-5 sending space station tiangong 2 set to launch in 2016 and how it is going to do it in 2016?

If I am Xi, I will order a space race and order CZ-5 is country greatest priority with any resources pour into it. What is wrong with CSA?

2016 is the maiden flight, while 2017 is to send the Chang'e 5.
 

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