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[Martian]

How to see China's space lab in night sky - Technology & science - Space - Space.com - msnbc.com

"How to see China's new space lab in night sky
Lower inclination of orbit should make Tiangong 1 visible to many on Earth
By Joe Rao
Space.com
updated 10/5/2011 12:38:01 PM ET


This artist's illustration from a China space agency video shows the Tiangong 1 space laboratory, a prototype module for the country's planned space station. (Photo credit: China Manned Space Engineering Office)

Over the last 13 years skywatchers have had the opportunity to watch the world's largest man-made object in space, the International Space Station, take shape. As the space station gradually grew in size, observers here on Earth could see it become steadily brighter as it sailed across the twilight sky.

Occasionally, it would be accompanied by a second object, usually the space shuttle, ferrying astronauts and cosmonauts to the station or back to Earth. With the construction of the space station finally completed this summer, as well as the end of the 30-year-old space shuttle program, attention now turns to a new space facility currently orbiting the Earth.

The Chinese space lab module Tiangong 1, which was launched unmanned on Sept. 29, is the first component in a critical test flight to demonstrate the vital docking technology required for a larger, semi-permanently crewed modular station China plans to put into orbit by 2020.

New 'star' in the sky


China's planned orbit for the Tiangong 1 space lab after launch — a 350-kilometer path around Earth. (Photo credit: China Manned Space Engineering Office)

Longtime satellite observers may recall when, in late November 1998, the first segment of the International Space Station, "Zarya," was launched from Russia. The spacecraft soon became visible as a bright "moving star" in the sky. Now, in a similar fashion, Tiangong 1 is visible as a bright, starlike object tracking across the sky.

Tiangong 1 is expected to be joined soon by three separate unmanned Chinese spacecraft — Shenzhou 8, Shenzhou 9 and Shenzhou 10 — that will mark China's first attempt at docking maneuvers in space.

When this happens, there will be opportunities to see two Chinese spacecraft flying in tandem, reminiscent of when the space shuttle and the International Space Station could be viewed before docking or just after undocking.

Shenzhou 8 is expected to be launched on a 12-day mission in November, while Shenzhou 9 and Shenzhou 10 are scheduled to lift off during 2012.  One or both of these latter missions may carry the first astronauts to Tiangong 1.

Regions of visibility

The International Space Station orbits Earth in a 51.6-degree inclined orbit, 233 miles by 248 miles (376 by 399 kilometers) high and is visible from 95 percent of the inhabited land on Earth.

But Tiangong 1 orbits Earth at a somewhat lower inclination of 42.8 degrees and at a lower 122-by-214- mile (197 by 345 kilometer) altitude.  As such, it is visible from about 80 percent of inhabited land areas.

For places north of about latitude 60 degrees north, Tiangong 1 will never rise above the horizon to be visible. This includes much of Alaska, the northern half of Canada, Iceland, Norway, Sweden and Finland. And for places just a short distance farther to the south, such as Juneau, Edmonton, Dublin and Copenhagen, Tiangong 1 will never get very high above the southern horizon; an altitude of less than 10 degrees (the apparent width of your clenched fist held at arm's length).

But for those regions of the globe between 42.8 degrees south (near Christchurch) to 42.8 degrees north (near Boston), Tiangong 1 can occasionally appear to arc high across the sky, even passing directly overhead at times.

What to look for


China's first space laboratory module, Tiangong 1 (Chinese for "Heavenly Palace"), blasts off from the Jiuquan Satellite Launch Center on Sept. 29. The module will fly a two-year mission for docking tests. (Photo credit: China Academy of Launch Vehicle Technology)

The appearance of this newly launched Chinese spacecraft moving across the sky is not in itself unusual.

Truth be told, on any clear evening within a couple hours of local sunset and with no optical aid, you can usually spot several orbiting Earth satellites creeping across the sky like moving stars. Satellites become visible only when they are in sunlight and the observer is in deep twilight or darkness. This usually means shortly after dusk or before dawn.

What makes these upcoming passes so interesting is that you'll be able to see China's first space laboratory module, which is expected to set the stage for the future of that country's ambitious space program — an important part of China's stepping-stone strategy to human spaceflight.

This week, it should be visible at dusk as an evening object across most the United States and southern Canada, as well as southern Europe.

And during the latter half of October, Tiangong 1 will be visible before sunrise in the dawn sky.

And this is a sight that should be easily visible to anyone, even from brightly lit cities. Tiangong 1 was observed on Oct. 1 by veteran Italian satellite observer Simone Corbellini who said its "brightness (was) steady at about magnitude 2; easily visible with the naked eye."

Magnitude 2 is as bright as Polaris, the North Star, on astronomers' brightness rating scale, where brighter objects have lower magnitude numbers.  Some have suggested that Tiangong 1 could shine as bright as a star of first magnitude, which would rank it among the brightest stars in the sky.

When and where to look

To find out the best time to view Tiangong 1 from your hometown, visit one of these two websites:

•    Chris Peat's Heavens Above

•    Spaceweather.com

Each will ask for your ZIP code or city, and respond with a list of suggested spotting times. Predictions computed a few days ahead of time are usually accurate to within a few minutes. However, they can change due to the slow decay of the object's orbit, so check frequently for updates.

Another great site is this one, which provides real-time satellite tracking and shows you at any given moment during the day or night over what part of the Earth the International Space Station happens to be."

[Martian]

China is #4 in International Patent Filings. Among companies, ZTE is #1.

Annex 1 - PCT international applications – Top 15 countries (Source: http://www.wipo.int/...001.html#annex1)

2011 international patent filings by countries:

#1 United States - 48,596 filings
#2 Japan - 38,888
#3 Germany - 18,568
#4 China - 16,406

2011 international patent filings by companies:

#1 ZTE (China) - 2,826 filings
#2 Panasonic (Japan) - 2,463
#3 Huawei (China) - 1,831
#4 Sharp (Japan) - 1,755
#5 Bosch (Germany) - 1,518
#6 Qualcomm (USA) - 1,494

Intellectual Property News Agency(AG-IP-News) | News

"International Patent Filings Set New Record in 2011
05-Mar-2012 | Source : AG-IP News

GENEVA - Despite difficult economic conditions, international patent filings under the World Intellectual Property Organization (WIPO)-administered Patent Cooperation Treaty (PCT) set a new record in 2011 with 181,900 applications – a growth of 10.7% on 2010 and the fastest growth since 2005. China, Japan and the United States of America (US) accounted for 82% of the total growth (annex 1). According to WIPO, Chinese telecommunications company ZTE Corporation was the biggest filer of PCT applications in 2011.

“The recovery in international patent filings that we saw in 2010 gained strength in 2011,” said WIPO Director General Francis Gurry. “This underlines the important role played by the PCT system in a world where innovation is an increasingly important feature of economic strategy. It also shows that companies have been continuing to innovate in 2011 – reassuring news in times of persistent economic uncertainty.”

Attesting to the rapid growth of the PCT system, 2011 also saw the filing of the two millionth PCT application, by US-based mobile technology company Qualcomm.

Among the top filing countries, PCT applications from China (+33.4%), Japan (+21%), Canada (+8.3%), the Republic of Korea (+8%) and the US (+8%) saw the fastest growth in 2011. European countries witnessed a mixed performance, with Switzerland (+7.3%), France (+5.8%), Germany (+5.7%) and Sweden (+4.6%) experiencing growth, and the Netherlands (-14%), Finland (-2.7%), Spain (-2.7%) and the United Kingdom (-1%) seeing declines. The large middle-income economies of the Russian Federation (+20.8%), Brazil (+17.2%) and India (+11.2%) recorded double-digit filing growth.

The US with 48,596 filings remains the largest user of the PCT system, followed by Japan (38,888), Germany (18,568) and China (16,406). However, the US (-0.7%) and Germany (-0.5%) saw drop in their shares of total filings, while China (+1.5) and Japan (+1.8) each increased their share by more than a percentage point.

Top applicants

ZTE Corporation of China with 2,826 published applications overtook Panasonic Corporation of Japan (2,463) as the top PCT applicant in 2011 (annex 2). Huawei Technologies, Co. of China (1,831) ranks third, followed by Sharp Kabushiki Kaisha (1,755) of Japan and Robert Bosch Corporation (1,518) of Germany. Each of the top five applicants saw double-digit growth in published PCT applications. Five Japanese companies – Panasonic, Sharp, Toyota, NEC, and Mitsubishi – feature in the top 15-list.

The University of California, with 277 applications published in 2011, is the largest filer among educational institutions, followed by the Massachusetts Institute of Technology (179), the University of Texas System (127), Johns Hopkins University (111) and the Korea Advanced Institute of Science and Technology (103). US universities account for 30 of the top-50 educational institutions, followed by Japan and the Republic of Korea with 7 institutions each (annex 3).

PCT filings by fields of technology

Digital communications with 11,574 (or 7.1% of total) published applications remained the field of technology accounting for the largest share of total PCT applications in 2011, followed by electronic machinery (6.9%), medical technology (6.6%) and computer technology (6.4%).

Most technology fields experienced growth in patenting in 2011. Electronic machinery (23.2%) saw the fastest growth, but 11 other fields also experienced double-digits growth (annex 4). Only 4 fields saw a decline in filings, including basic communication processes (-5.9%), organic fine chemistry (-4.1%), and pharmaceuticals (-1.9%).

The PCT system facilitates the process of seeking patent protection in multiple countries. It simplifies this process by postponing the requirement to file a separate application in each jurisdiction until after a centralized processing and initial patentability evaluation have taken place. Examination of the patentability of the invention in national offices and the related expenses are postponed, in the majority of cases, by up to 18 months – or even longer in some offices – as compared to direct patent filings. The PCT system now has 144 member states. Annex 5 presents total PCT filings from all member states from 2007 to 2011."

[Martian]

China's first artificial skin production base opens


Composed of dermis and cuticular layers, and containing live cells, this “artificial skin” can carry out the same functions as real skin.

http://english.peopl...36/7738640.html

"China's first artificial skin production base opens
By Yang Yonglin (Guangming Daily)
08:18, February 24, 2012

Edited and translated by People's Daily Online

China's first artificial skin production base officially opened in Xi'an, northwest China's Shaanxi province on Feb. 21, 2012.

It makes China the second country to independently develop and master this cutting-edge technology after the United States. This also marks a solid step forward in tissue engineering and regenerative medicine.

The research and development of tissue engineering and artificial skin is a major project included in China's 863 Program, or the State High-Tech Development Plan.

Artificial skin technology involves cultivating human cells to create skin that is about the same as normal human skin.

Artificial skin can be used in skin grafting and replacement, and is particularly effective in treating burns and diabetes-caused refractory foot ulcers, as well as in speeding up healing of wounded skin without leaving a scar.

（Editor：厉振羽）"

[Martian]

China launches 11th satellite for Beidou system|Society|chinadaily.com.cn

"China launches 11th satellite for Beidou system
Updated: 2012-02-25 04:10
(Xinhua)


The Long March-3C carrier rocket lifts off from the Xichang Satellite Launch Center in Southwest China's Sichuan province, Feb 25, 2012. [Photo/sina.com]

XICHANG - China successfully launched a satellite into space at 12:12 am Beijing Time Saturday, the 11th one of its indigenous global navigation and positioning network known as Beidou, or Compass system, the launch center said.

The satellite, launched from the Xichang Satellite Launch Center in Southwest China's Sichuan province, was boosted by a Long March-3C carrier rocket into a geosynchronous orbit.

It was also the 158th launch of the Long March carrier rockets.

The Beidou system started to provide services on a trial basis on Dec 27, 2011. The system has been used in transportation, weather forecasting, marine fisheries, hydrological monitoring, and mapping.

China began to build the Beidou system in 2000 with a goal of breaking its dependence on the US Global Positioning System (GPS) and creating its own global positioning system by 2020.

China will launch more satellites for the Beidou network this year to improve the system's coverage and services, according to the launch center."

[Note: Thank you to ChineseTiger1986 for the newslink.]

[Martian]

Neutrino find in China may uncover matter secrets


Assembly of the antineutrino detectors in the Daya Bay Reactor Neutrino Experiment at the China Guangdong Nuclear Power Group power plant in southern China. The image shows the light sensors recording the neutrino interactions and the acrylic target vessels. (Credit: Photo by Roy Kaltschmidt, Lawrence Berkeley National Laboratory)

Neutrino find may uncover matter secrets|Sci-Tech|chinadaily.com.cn

"Neutrino find may uncover matter secrets
Updated: 2012-03-08 14:22
(Xinhua)

BEIJING/SHENZHEN - Chinese and American physicists have made a pivotal breakthrough in the study of neutrinos, which may explain the predominance of matter over antimatter in the universe.

The research on the subatomic particles, which was conducted at a nuclear power plant in south China, is expected to define the future of particle physics.

The findings come from the Daya Bay Reactor Neutrino Experiment, which was conducted close to the Daya Bay Nuclear Power Station in Guangdong Province.

Based on data collected from two powerful nuclear reactors, multinational scientists have been able to confirm and measure a third type of neutrino oscillation, Wang Yifang, a co-spokesperson for the experiment and head of the Institute of High Energy Physics (IHEP) of the Chinese Academy of Sciences (CAS), said at a press conference Thursday in Beijing.

Neutrinos, the wispy particles that flooded the universe in the earliest moments after the Big Bang, are continually produced in the hearts of stars and and other nuclear reactions.

Traveling at close to the speed of light, the three basic neutrino "flavors" -- electron, muon, and tau neutrinos, as well as their corresponding antineutrinos -- mix together and oscillate. This activity, however, is extremely difficult to detect.

Two types of oscillation, solar and atmospheric neutrino oscillation, were confirmed in experiments conducted in the 1960s and 1990s, while the third type of oscillation had not been detected prior to the Daya Bay experiment.

From last December, the scientists in the Daya Bay experiment observed tens of thousands of interactions of electron antineutrinos caught by six detectors installed in the mountains adjacent to the powerful nuclear reactors, Wang said.

The data revealed for the first time the strong signal of the effect that the scientists were searching for -- a so-called "mixing angle" named theta one third, a new type for neutrino oscillation, he said.

"It is surprisingly large," Wang said. "Our precise measurement will complete the understanding of the neutrino oscillation and pave the way for the future understanding of matter-antimatter asymmetry in the universe."

Scientists believe the intense heat of the Big Bang should have forged equal amounts of matter and its "mirror image" antimatter. But as we live in a universe composed overwhelmingly of matter today, physicists have been puzzled by the apparent "disappearance" of antimatter.

The findings have been submitted to the Physical Review Letters for publication, Wang said.

Chinese physicists proposed to look for the third type of neutrino oscillation by studying neutrinos produced by nuclear reactors and measure the amplitude of the oscillation due to the least-known mixing angle denoted by theta one-three, said Zhao Guangda, a CAS academician and director general of the China Society of High Energy Physics.

Zhao said the value of theta one-three would "determine the future of particle physics."

"The mystery of why antimatter disappears can be solved," Zhao said.

Co-spokesperson Kam-Biu Luk, a lead physicist at the U.S. Department of Energy Lawrence Berkeley National Laboratory and the University of California at Berkeley, said the study results would also represent a major contribution to understanding the role of neutrinos in the evolution of basic kinds of matter in the earliest moments after the Big Bang.

"We've had extraordinary success in detecting the number of electron antineutrinos that disappear as they travel from the reactors to the detectors two kilometers away," Luk said.

"The Daya Bay experiment is of crucial scientific significance, leading to a bright future for particle physics," said CAS academician Zhan Wenlong, who is also vice CAS president and president of the Chinese Physical Society.

China and the United States launched the Daya Bay experiment in 2006. It involves collaboration of 250 researchers from 39 global institutes including the IHEP, Lawrence Berkeley National Laboratory, Brookhaven National Laboratory, California Institute of Technology, Tsinghua University and Charles University in Prague."

[Martian]

Two Chinese win US award for cancer research - China.org.cn

Two Chinese win US award for cancer research
China.org.cn, March 9, 2012


Wang Zhenyi [2nd from L], 88, and Chen Zhu [R], 59, win the Seventh Szent Gyorgyi Prize, a top U.S. award, which was established by the U.S. National Foundation for Cancer Research (NFCR). [Photo/Xinhua]


Wang Zhenyi [L], 88, and Chen Zhu [R], 59, win the Seventh Szent Gyorgyi Prize, a top U.S. award, which was established by the U.S. National Foundation for Cancer Research (NFCR). [Photo/Xinhua]

[Martian]

Chinese physicists make a key breakthrough: new type of neutrino oscillation


Wang Yifang, Associate Director and Director of the Center for Experimental Physics of IHEP (Institute of High Energy Physics in Beijing), dedicating the inserted drift chamber (on the left)

http://www.chinadail...nt_14800359.htm

"Chinese physicists make key breakthrough
By Cheng Yingqi (chinadaily.com.cn)
Updated: 2012-03-09 15:56

Chinese physicists have made a key breakthrough in a mystery left unsolved by two Nobel Prize winners, but they say any mention of a prize for their work is premature.

On Thursday, scientists announced in Beijing that they can finally answer the long-standing question of how one kind of neutrino changes into another.

"This is a new type of neutrino oscillation. Our precise measurements will complete the understanding of neutrino oscillation and pave the way for future understanding of the mystery of the universe," said Wang Yifang, a researcher at China's Institute of High Energy Physics (IHEP) and Chinese project manager of the Daya Bay experiment.

More than 100 scientists from China, US, Russia and other countries and regions conducted the research between Dec 24, 2011 and Feb 17, in an underground laboratory located close to the Daya Bay Reactor in Guangdong province.

Physicists believe the neutrino is the elementary particle of all materials. They have found three different kinds of neutrino, each of which has the ability to change into another.

Japanese scientist Masatoshi Koshiba and American physicist and chemist Raymond Davis Jr. discovered two of the ways in which neutrinos change, and both of them won the Nobel Prize. Now the Chinese scientists say they have found a third way.

However, when asked if their research might bring a Nobel Prize to China, Chen Hesheng, a researcher at the IHEP, demurred.

"This new finding is only the start of a long-term project, which will be conducted for decades by scientists all around the globe," Chen said.

"This is also an achievement for international cooperation," he added. "I'd like to say that we still have a long way to go.""

[Note: Picture and caption source at China prepares for a new generation of tau-charm physics]

[Martian]

China's Suntech Sets World Record 20.3% Efficiency for Pluto Cell Technology


Pluto cell technology and in-house developed multicrystalline wafer-based modules on display at Suntech's booth.


Suntech modules with Pluto Technology used in Sydney project.

Suntech Sets World Record 20.3% Efficiency for Pluto Cell Technology - MarketWatch

"Suntech Sets World Record 20.3% Efficiency for Pluto Cell Technology
March 12, 2012, 8:00 a.m. EDT

WUXI, China, March 12, 2012 /PRNewswire via COMTEX/ -- Suntech Power Holdings Co., Ltd. STP +0.74%, the world's largest producer of solar panels, today announced that its industry-leading Pluto cell technology set a world record 20.3% efficiency for a production cell using standard commercial-grade p-type silicon wafers.

Developed by Suntech's research and technology development (R&D) team, in collaboration with the University of New South Wales, the incremental innovation in Pluto cell technology underscores Suntech's investment in R&D that delivers the best solar technology to its customers at an affordable price.

"This technology breakthrough marks another critical milestone in our effort to improve solar cell efficiency, which will ultimately make solar competitive with fossil fuels," said Dr. Stuart Wenham, Suntech's Chief Technology Officer, and Director of the School of Photovoltaic and Renewable Energy Engineering (SPREE) at the University of New South Wales. "Technology innovation is imbued in Suntech's DNA, and as a global solar technology leader, our more than 400 R&D professionals around the world, including Australia, are committed to continually improve how we harness solar energy."

The Solar Energy Research Institute of Singapore has independently confirmed the 20.3% efficiency of the improved Pluto cell technology, a significant improvement over the 19.6% best cell efficiency of the first generation Pluto cell technology. With further optimization, the efficiency of the improved Pluto cell technology is projected to reach 21.0% in the next 6 - 12 months.

One of the key improvements for the Pluto cell technology is the incorporation of similar high-efficiency characteristics of the record-holding PERL cell technology in the conventional Pluto cell manufacturing process. These act to improve the rear surface design of a conventional Pluto cell, primarily by reducing the metal/silicon interface area while keeping the remaining non-contacted area well-passivated. In addition, Suntech has introduced process changes that minimize the use of high temperatures which make it possible to apply the high efficiency processes to the most commonly used commercial wafers.

Following the laboratory success of the improved Pluto cell technology, Suntech is now focusing on commercializing the technology. Suntech will advise when this technology is available in future releases of Suntech solar panels.

This new record for crystalline silicon solar cells follows the recent announcement by a team of researchers from Swinburne University of Technology and Suntech on the development of the world's most efficient broadband nanoplasmonic solar cells.

Advanced cell and module technology developments are a hallmark of Suntech's success in leading solar technology innovation. This latest breakthrough reflects the results of an effective collaboration between Suntech and research institutes worldwide to commercialize innovative technology. Suntech will maintain and extend this collaboration through Suntech R&D Australia Pty Ltd, established in 2011, where project activities target the manufacturing implementation of advanced cell technologies.

Suntech has recently been commended by several reputed institutions for its innovation - MIT Technology Review recognized Suntech as one of world's 50 most innovative companies; Fast Company recently named Suntech one of the top 10 most innovative companies in China; and EuPD awarded Suntech the 'Top Brand PV' seal, a well-respected award worldwide. In December 2011, PV Tech awarded Suntech's crystalline silicon solar panel as the most innovative solar product of 2011.

Further details on this breakthrough can be perused in the high-profile industry journal 'Progress in Photovoltaics', and can be found online here.

To learn more about Suntech's efforts in pursuing innovation excellence, please visit the Suntech Connect blog or follow us on Twitter @Suntech_Connect for regular updates.

About Suntech

Suntech Power Holdings Co., Ltd. STP +0.74% produces industry-leading solar products for residential, commercial, industrial, and utility applications. With regional headquarters in China, Switzerland, and the United States, and gigawatt-scale manufacturing worldwide, Suntech has delivered more than 20,000,000 photovoltaic panels to over a thousand customers in more than 80 countries. Suntech's pioneering R&D creates customer-centric innovations that are driving solar to grid parity against fossil fuels. Suntech's mission is to provide everyone with reliable access to nature's cleanest and most abundant energy source.

For more information about Suntech's people and products visit: Suntech ? North & South America"

[Note: Source for pictures and captions at http://www.pv-tech.o...us_solar_market]

[Martian]

Understanding China's high-resolution Moon maps

As everyone knows, China recently published the world's highest-resolution maps of the Moon. To ensure you derive the maximum appreciation of China's Moon maps, I would like to discuss cartography.


Chang'e-2 Spacecraft's Orthographic Projection Moon Diagram.

The first high-resolution map is the easiest to describe. It is a composite picture of the Moon.

The left picture is the near side of the Moon. The right picture is the far side of the Moon, which is tidally locked and cannot be seen from the Earth.

An orthographic projection simply means a three-dimensional object is being shown in two dimensions.

----------


China's Chang'e-2 Mercator Moon map

A Mercator projection is a cylindrical map that preserves the angles from any given point. It is useful for navigation.

However, the drawback is the size distortion as you move toward the poles. The objects near the top and bottom of the map should be much smaller, because the subtended surfaces become smaller near the north and south geographic poles.

Notice that China's Mercator Moon map shows both the near and far sides of the Moon. For comparison, I have included a Mercator map of the Earth below.


Mercator projection of the Earth between 82°S and 82°N

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China's Chang'e-2 Mollweide equal-area projection Moon map

A Mollweide projection is an elliptical equal-area map that preserves the accuracy of the surface area. It is useful for size comparisons at the expense of sacrificing accuracy in angles.

Notice that China's Mollweide Moon map shows both the near and far sides of the Moon. For comparison, I have included a Mollweide map of the Earth below.


Mollweide projection of the Earth

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Pictures of Chang'e-2 satellite, which photographed the Moon maps.


SOARING SUCCESS: Technicians assembling Chang'e-II at the Xichang Satellite Launch Centre prior to October 1, 2010 launch. (Photo: Xinhua)


Image: The Change E 2 Lunar Orbiter as it was being positioned for installation on the Long March 3C launch vehicle at the launch site in Xichang.


Long March 3C rocket, carrying China's second unmanned lunar probe Chang'e II, lifts off from the launch pad at the Xichang Satellite Launch Center in southwest China's Sichuan Province, at 18:59:57 (Beijing time) on Oct. 1, 2010. (Photo: Xinhua/Li Gang)

[Martian]

China's ZY-1-02C satellite has 2.36 meter resolution

As military enthusiasts, what we really want to know is the resolution of China's spy satellites. Since that information is classified, we have to look at China's civilian imaging satellites to determine the baseline for estimating China's military satellite capability.

It's common sense that spy satellites have superior capability in comparison to civilian satellites. By analogy, military GPS has vastly superior accuracy in comparison to civilian GPS.

Anyway, you should click on the newslink and watch the short video on China's ZY-1-02C satellite. For your convenience, I have screen-captured some of the images from China's satellite.

NEWSCONTENT


China's civilian ZY-1-02C satellite has 2.36 meter resolution. The ZY-1-03C satellite has 2.1 meter resolution. China will launch three more satellites with 1 meter resolution.


I think this is a picture of the Beijing International Airport. Clearly, China's ZY-1-02C satellite can easily distinguish between different types of aircraft.


The ZY-1-02C satellite resolution is sufficient to allow an observer to read the Chinese characters on a warehouse. The first character means "large." I don't remember the other characters anymore.


I think this is a picture from space of the Forbidden City in Beijing. Each building can be clearly seen. For military use, a Chinese spy satellite will be able to provide real-time surveillance for an airstrike.

"High resolution imagery released from China's ZY-1-02C, ZY-1-03C satellites
Beijing, China - Feb 29, 2012

The latest high-resolution images delivered by China's high-resolution remote sensing satellites ZY-1-02C and ZY-1-03C were released by China's Center for Resources Satellite Data and Application Wednesday.

The ZY-1-02C, launched on Dec 22 of last year, has become the first customized land resources satellite for Chinese clients, the center said.

Yu Wenyong, head of the China's Center for Resources Satellite Data and Application, said, “Engines of large aircraft at Beijing's Capital International Airport can be clearly seen from the images delivered from remote sensing satellite ZY-1-02C, as well as vehicles and trees on the road, and the texture of the Bird's Nest and Water Cube, and even steel beams of the Bird's Nest are clearly seen.”

“The highest resolution of remote sensing satellite ZY-1-02C is 2.36 meters,” he added.

With two high-resolution color cameras and one multi-spectral camera, the ZY-1-02C will provide clients with images for disaster relief services, agriculture development, environmental monitoring and other applications.

China's first high-resolution remote sensing satellite ZY-1-02C has carried out orbital tests, and images delivered from it reach international standards, China's Center for Resources Satellite Data and Application said Wednesday.

“As for the ZY-1-03C, the highest resolution is 2.1 meters. The resolution of our current satellites has reached the level of the same kind in France, Japan and India,” said Yu Wenyong.

According to Yu, the test of ZY-1-02C and ZY-1-03C has entered the final stage, and they are about to be used. China will launch three more land resources satellites, and the pixelation will reach 1 meter, which will offer important technical support to China’s land resources and stereo mapping figures."

[Martian]

Showdown between Chinese and American commercial satellite resolutions!

1. Chinese ZY-1-02C resolution is 2.36 meters.
2. Chinese ZY-1-03C resolution is 2.1 meters.
3. Upcoming three Chinese satellite resolution is 1 meter.

4. American GeoEye-1 (built by General Dynamics and launched in 2008) has a resolution of 16 inches (41 centimeters or 0.41 meter).
5. American GeoEye-2 is scheduled for launch in 2013. Its resolution is 25 cm (or 0.25 meter)

In conclusion, the best Chinese satellite currently has a 2.1 meter resolution. In contrast, the best American civilian satellite currently has a 0.41 meter resolution. America's GeoEye-1 has 5 times better resolution than China's ZY-1-03C (e.g. 0.41m x 5 = 2.1 meters).

In the near future, China will launch three satellites with 1 meter resolution. In contrast, America's GeoEye-2 will launch next year with 0.25m resolution. The American GeoEye-2 will have 4 times better resolution than China's best satellites (e.g. 0.25m x 4 = 1 meter).

The trend is that China is closing the gap. American imaging satellites are currently 5 times better than Chinese satellites. However, the American lead will shrink down to 4 times better in the near future.

World’s Highest-Res, Color Satellite Image Showcases New Spacecraft’s Quality – News Watch

"World’s Highest-Res, Color Satellite Image Showcases New Spacecraft’s Quality
Posted by David Braun of National Geographic on October 9, 2008


Image courtesy GeoEye, Inc

Commercial satellite imagery of the Earth will be a lot sharper thanks to GeoEye-1, a spacecraft that can make images of objects on the ground as small as 16 inches (41 centimeters) — from more than 400 miles (640 kilometers) away.

The satellite has been undergoing calibration and check-out since it was launched last month. This week, while moving north to south in a 423-mile-high (681-kilometer) orbit over the eastern seaboard of the U.S. at a speed of 17,000 miles per hour (27,000 kilometers per hour), GeoEye started working.

The image (above) “captures what is in fact the very first location the satellite saw when we opened the camera door and started imaging,” said Brad Peterson, GeoEye’s vice president of operations. “We expect the quality of the imagery to be even better as we continue the calibration activity.”

The image shows Kutztown University, Pennsylvania. It was produced by fusing the satellite’s panchromatic (black-and-white) and multispectral (color) data to produce a high-quality, true-color 20-inch (50-centimeter) resolution image.

The satellite’s highest resolution imagery (16-inch) will not be available commercially. Those images are reserved for the National Geospatial-Intelligence Agency, which paid a major share of the cost of the satellite.

Google is the second largest shareholder in the venture, so it gets exclusive online mapping use of the 20-inch-resolution imagery, which it plans to use to improve the quality of Google Maps and Google Earth.

Images for other commercial purposes (at the lower 20-inch res, naturally) can be purchased directly from GeoEye, Inc.

A second satellite, GeoEye-2, slated to launch in 2011 or 2012, will have a resolution of 10 inches (25 centimeters), Wired reports on its Web site. However, Wired continues, Google’s satellite imagery will not likely get more detailed because of the U.S.-government regulation that restricts commercial imagery to a resolution no higher than 50 centimeters.

The very finest detail of imagery available from space is reserved for the spy agencies."

----------

GeoEye-2 - Wikipedia, the free encyclopedia

"GeoEye-2 is a planned third generation commercial Earth observation satellite, due to launch in early 2013. The satellite will have a resolution of 25 cm, making it the highest resolution commercial Earth observation satellite in orbit, once it has been launched. However, restrictive licensing by the US government makes it likely that only the US government and some of its allies will have access to imagery at the full design resolution - all other users will have to make do with imagery at the highest resolution that the US government licenses for other users - 20 inches (50.8 cm). The imaging sensor will be manufactured by ITT Exelis, and the satellite owned by GeoEye.

When it goes up, GeoEye-2 will join two other satellites, GeoEye-1 and IKONOS, which are already in orbit. Assuming that both these satellite continue to operate, this will give GeoEye three sub-metre satellites in orbit, and the ability to offer its customers daily revisits. This will potentially open up a whole new raft of applications for the company. RapidEye already provides this capability on a commercial basis, but its satellites only offer 5 metre resolution.

Primary mirror diameter: 1.1 m[1]

Lockheed Martin, the builder of IKONOS, has been selected as the builder of the satellite platform over General Dynamics the builder of GeoEye-1. General Dynamics lost money on the fixed contract for GeoEye-1 and could not come to terms with GeoEye.[2]"

[Note: I should mention that resolution and picture quality are two different standards. A picture is two dimensional and it has both length and width. We know that a GeoEye-1 pixel is 1/5th the length of a ZY-1-03C pixel. However, a GeoEye-1 picture will be 25 times sharper than a ZY-1-03C picture.

This is easy to understand. For the same picture size, we can fit 5 times more GeoEye-1 pixels horizontally. Also, we can fit 5 times more GeoEye-1 pixels vertically in comparison to a ZY-1-03C picture. Hence, a GeoEye-1 picture will have 25 times more pixels/detail than a ZY-1-03C picture.]

[Martian]

TCL Corporation Launches World’s Largest 4K Full HD 110 inch 3D TV | Good 3D TV - 3D TV News - The latest Technology Reviews and Previews

"TCL Corporation Launches World’s Largest 4K Full HD 110 inch 3D TV
Posted In 3d TV - By James Patterson On Friday, March 16th, 2012


TCL recently unveiled what it is calling the world's largest 4K HD LCD TV, featuring a 110-inch screen size.

At a function held on March 9th, two LCD 3D TV sets each of 110 inch screen dimension were donated to the “Great Hall of the People” by China Star.

The sets have some unique features like the resolution being of a massive 4,096 x 2160 pixels, which makes it a proper 4k set. The screen is also of multi-touch technology having intelligent and dynamic backlight technology. The set is based on active shutter technology and its brightness factor is of 800 units, while the color is 92 percent NTSC. Another unique feature of this set is its Fine Stereo Performance (FSP) technology which is an in-house development.

These unique and advanced features have been achieved by use of “high-end lithography, oversized partial affixed technology and advanced backlight techniques”.

A press release after the display event says, “The China Star technology is in line with industry trends and consumer demands. With the unprecedented size of the display screen, touch technology and 4Kx2K resolution, consumers will be able to truly immerse themselves in the viewing experience, enjoying realistic life-size images, which is totally unique from traditional TV displays….The implications for TCL’s newest large screen technology, for not only its customers but for the entire field of 3D HD displays are numerous. Continued advancements in quality equate to continued customer satisfaction and will ensure TCL’s position as a true global player in this industry.”

Such sets are not for actual home use and only for display to showcase the strength of the technology being used as well as furthering the company name. These sets indicate that by increasing resolution, loss of resolution which happens to be one of the current major drawbacks of passive tech based 3D TVs is quite compensated for.

Resolution factor can well be experienced with the glasses free 3D TV Toshiba recently put up for sale for $7000. The resolution of the 3D TV is so less that viewers don’t seem to get much of a 3D effect with the set.

via 3dfocus"

[Note: Caption source at TCL Unveils 110-inch 4K LCD TV - 2012-03-16 19:11:49 | TWICE]

[marchpole]

Long March 7 To Fly Late Next Year


Mar 6, 2012


By Bradley Perrett

XIAN, China — China’s new medium-heavy space launcher, the Long March 7, should fly late next year, entering service in an initial version capable of lifting 13.5 metric tons (30,000 lb.) to low orbit, making it significantly larger than current Chinese rockets.

The Long March 7 will have four boosters, says the principal engineer of manufacturer CALT, Shen Lin, adding that China is also planning new upper stages and launch vehicles, some using solid propellants and others fueled with methane.

Speaking at the Asian Joint Conference on Propulsion and Power, held at Xian, China, on March 2-3, Shen confirms that the Long March 7 will use kerosene for fuel, which was expected, since its boosters and core first stage are to be driven by a new standard engine, the YF-100, which features 120 metric tons (265,000 lb.) thrust.

The YF-100 has staged combustion, Chinese industry officials say, referring to a challenging but efficient technology. The engine has achieved a 305-sec. specific impulse, a key measure of efficiency, they add. The 18-ton-thrust second-stage engine of Long March 7, which may be named YF-118 or YF-18, has been revealed as using staged combustion.

China has been working on engines burning methane (CH4) and liquid oxygen (LOx) since 2008, say senior Chinese space engineers Li Ping and Li Bin in a paper presented to the conference. “A pilot engine with 600-kn thrust (135,000 lb.) was [test-fired] to investigate the key technologies related with the reusable LOx-CH4 booster engines,” they say. This has been followed with development work on a 100-kn pilot upper-stage engine and several small-thrust reaction-control engines.

Hydrogen-fueled engines were adapted for the methane tests, another official says, adding that China has investigated liquefied petroleum gas as a fuel.

Long March 7 and its smaller sibling, the Long March 6, are overtaking the biggest member of China’s new rocket family, Long March 5, whose development began earlier. Long March 6 development is running behind that of Long March 7 by only a few months, if at all, says an official familiar with the programs. Long March 5 is introducing more technology than the two smaller rockets, notably a hydrogen first-stage core engine and a 5-meter (16.4-ft.) body dia.

The YF-100 also is the booster engine of the Long March 5 and the first-stage core engine of the Long March 6. Six YF-100s will propel Long March 7 — two in the core and one on each booster. Although this new family is eventually supposed to supplant the current launchers, all of which use toxic hydrazine fuel, the first version of Long March 7 will be considerably more powerful than any of the earlier rockets. The human-rated Long March 2F, for example, is capable of lofting 8.4 tons to low orbit, CALT says.

CALT, a subsidiary of national space conglomerate CASC, is developing Long March 5 and 7. The company drew up the preliminary design of the Long March 6, but CASC assigned the detail design and production of that small launcher to another subsidiary, SASC, officials say.

In the preliminary design, Long March 6 used the smallest of China’s three standard rocket body diameters, 2.25 meters, but SASC officials have said it will be built with the same 3.35-meter dia. as Long March 7. All of the new rockets will use a new launch base being built on Hainan Island, an official says.

http://www.aviationw... Late Next Year

[Martian]

Solitary waves induce waveguide that can split light beams

"Solitary waves induce waveguide that can split light beams
New York / Heidelberg, 15 March 2012

A Chinese team has performed simulations to help understand the occurrence of multiple solitary optical waves that are used to reconfigure optical beams



Researchers have designed the first theoretical model that describes the occurrence of multiple solitary optical waves, referred to as dark photovoltaic spatial solitons. The findings by Yuhong Zhang, a physicist from the Xi’an Institute of Optics and Precision Mechanics of the Chinese Academy of Science, and his colleagues is about to be published in EPJ D¹. Because the shape of dark solitons remains unaffected by the crystal in which they travel, they induce waveguides, which can be used, for example, to reconfigure optical beams by splitting them.

Dark solitons are generated in so-called photorefractive crystals – crystals that respond to an incoming light beam by decreasing their refractive index as optical intensity increases, causing in the incoming beam to defocus. This effect is called nonlinear self-defocusing. Dark solitons occur when the diffraction of an incoming beam by the notch, located at the crystal’s entrance, is compensated by the crystal’s self-defocusing effect. As a result, dark solitons can induce waveguides for light beams, allowing them to travel unchanged through photorefractive crystals.

The authors performed the first numerical simulation to model the formation and evolution of one-dimensional multiple dark solitons inside a photorefractive crystal, relying on an approximation technique called the beam propagation method. By expanding the width of the dark notch located at the entrance of the crystal, which, unlike in previous studies, was not given any special function, they showed it was possible to create multiple dark solitons.

These solitons appeared in either odd or even numbers, depending on the initial beam phase or amplitude. The authors also confirmed previous findings that showed that when multiple solitons are generated, the separation between them becomes smaller. Further, the solitons become progressively wider and less visible, the farther away they are from the main dark notch entry location.

References:

1. Zhang Y., Lu K., Guo J., Li K., Liu B. (2012), Steady-state multiple dark photovoltaic spatial solitons. European Physical Journal D (EPJ D). DOI 10.1140/epjd/e2012-20560-4"

[imran46]

i would like to see chines language to become popular like English , i want  people of other countries to learn chines, china should make effort  and provide scholarship  to students of other countries to learn chines this is going to  help china to be a truly super power

[Martian]

Liquid-like Materials May Pave Way For New Thermoelectric Devices

"Liquid-like Materials May Pave Way For New Thermoelectric Devices
March 24, 2012


Image Caption: In this diagram, the blue spheres represent selenium atoms forming a crystal lattice. The orange regions in between the atoms represent the copper atoms that flow through the crystal structure like a liquid. This liquid-like behavior is what gives the selenium-copper material its unique thermoelectric properties. (Credit: Caltech/Jeff Snyder/Lance Hayashida)

In the continual quest for better thermoelectric materials—which convert heat into electricity and vice versa—researchers have identified a liquid-like compound whose properties give it the potential to be even more efficient than traditional thermoelectrics.

Thermoelectric materials have been used to power spacecraft ranging from Apollo to the Curiosity rover now headed for Mars. Recently, however, scientists and engineers have been turning to these materials to use wasted heat—released from automobiles or industrial machinery, for instance—as an efficient energy source. They have also proposed using these materials to create more efficient heating systems in electric cars or even as new ways to exploit solar power.

In identifying this new type of thermoelectric material, the researchers studied a material made from copper and selenium. Although it is physically a solid, it exhibits liquid-like behaviors due to the way its copper atoms flow through the selenium’s crystal lattice.

“It’s like a wet sponge,” explains Jeff Snyder, a faculty associate in applied physics and materials science in the Division of Engineering and Applied Science at the California Institute of Technology (Caltech) and a member of the research team. “If you have a sponge with very fine pores in it, it looks and acts like a solid. But inside, the water molecules are diffusing just as fast as they would if they were a regular liquid. That’s how I imagine this material works. It has a solid framework of selenium atoms, but the copper atoms are diffusing around as fast as they would in a liquid.”

The research, led by scientists from the Chinese Academy of Science’s Shanghai Institute of Ceramics in collaboration with researchers from Brookhaven National Laboratory and the University of Michigan, as well as from Caltech, is described in a paper recently published in the journal Nature Materials.

A thermoelectric material generates electricity when there is a temperature difference between one end of the material and the other. For example, if you place a thermoelectric device right next to a heat source—say a laptop battery—then the side closest to the battery will be hotter. The electrons in the hot end will diffuse to the cool end, producing an electric current.

A good thermoelectric material must be good at conducting electricity but bad at conducting heat. If it were good at conducting heat, the heat from the hot end would move to the cool end so fast that the whole material would rapidly reach the same temperature. When that happens, the electrons stop flowing.

One way to improve thermoelectric efficiency, then, is to decrease a material’s ability to conduct heat. To that end, researchers have been developing thermoelectric materials with a mix of crystalline and amorphous properties, Snyder says. A crystalline atomic structure allows electrons to flow easily, while an amorphous material, such as glass, has a more irregular atomic structure that hinders heat-carrying vibrations from traveling.

These heat-carrying vibrations travel via two types of waves. The first type is a longitudinal or pressure wave, in which the direction of displacement—in this case, the jiggling of atoms—is the same as the direction of the wave. The second type is a transverse wave, in which the direction of displacement is perpendicular to the direction of the wave, like when you shake a jump rope up and down, resulting in waves that travel horizontally along the rope.

In a solid material, a transverse wave travels because there is friction between the atoms, meaning that when one atom vibrates up and down, an adjacent atom moves with it, and the wave propagates. But in a liquid, there is minimal friction between the atoms, and a vibrating atom just slides up and down next to its neighbor. As a result, transverse waves cannot travel inside a liquid. Ocean waves are different because they have an interface between the liquid and the air.

The team found that because heat-carrying vibrations in a liquid can travel only via longitudinal waves, a material with liquid-like properties is less thermally conductive. Therefore, a liquid-like material that’s also good at conducting electrically should be more thermoelectrically efficient than traditional amorphous materials, Snyder says.

In the case of the copper-selenium material that the researchers studied, the crystal structure of the selenium helps conduct electricity, while the free-flowing copper atoms behave like a liquid, damping down thermal conductivity. The efficiency of a thermoelectric material is quantified using a number called a “thermoelectric figure of merit.” The copper-selenium material has a thermoelectric figure of merit of 1.5 at 1000 degrees Kelvin, one of the highest values in any bulk material, the researchers say.

NASA engineers first used this copper-selenium material roughly 40 years ago for spacecraft design, Snyder says. But its liquid-like properties—which were not understood at the time—made it difficult to work with. This new research, he says, has identified and explained why this copper-selenium material has such efficient thermoelectric properties, potentially opening up a whole new class of liquid-like thermoelectric materials for investigation.

“Hopefully, the scientific community now has another strategy to work with when looking for materials with a high thermoelectric figure of merit,” Snyder says.

In addition to Snyder, the research group includes Caltech graduate student Tristan Day. The other authors on the Nature Materials paper, titled “Copper ion liquid-like thermoelectrics,” are Huili Liu, Xun Shi, Lidong Chen, Fangfang Xu, Linlin Zhang, and Wenqing Zhang of the Chinese Academy of Science’s Shanghai Institute of Ceramics; Qiang Li of Brookhaven National Laboratory; and Citrad Uher of the University of Michigan.

Support was provided by the National Natural Science Foundation of China, the Shanghai Science and Technology Commission, the CAS/SAFEA International Partnership Program for Creative Research Teams, the National Basic Research Program of China, the U.S. Department of Energy, and the Air Force Office of Scientific Research’s Multidisciplinary Research Program of the University Research Initiative."

[Martian]

Quantum information motion control is now improved

"Quantum information motion control is now improved
by Staff Writers
Heidelberg, Germany (SPX) Apr 04, 2012


They have shown that when the energy excess between the two quantum dots of the DQD system is sufficient to create an integer number of phonons, electrons can reach resonance and tunnel from one quantum dot to the other.

Physicists have recently devised a new method for handling the effect of the interplay between vibrations and electrons on electronic transport. Their paper is about to be published in EPJ B.

This study, led by scientists from Zhejiang University, Hangzhou, China, and the Centre for Computational Science and Engineering at the National University of Singapore, could have implications for quantum computers due to improvements in the transport of discrete amounts of information, known as qubits, that are encoded in electrons.

The authors created an electron transport model to assess electrons' current fluctuations when they are subjected to quantized modes of vibration, also known as phonons.

In the model, phonons are induced by a nanomechanical resonator. To better monitor electron transport, it is coupled to a system that was chosen for its ability to confine one or several electrons, called double quantum dot (DQD).

Unlike previous studies, this work imposed arbitrary strong coupling regimes between electrons in the DQD and the phonons produced by the resonator. The authors successfully controlled the excitations of the phonons without impacting the transport of quantum information.

To do so, they decoupled the electron-phonon interaction by the so-called coherent phonon states method, which is based on reaching resonance modes of phonons.

They have shown that when the energy excess between the two quantum dots of the DQD system is sufficient to create an integer number of phonons, electrons can reach resonance and tunnel from one quantum dot to the other.

In strong electron-phonon coupling regimes, multi-phonon excitations can thus enhance the electron transport.As the electron-phonon coupling becomes even stronger, the phenomenon of phonon scattering represses electron transport and confines the electrons.

The fluctuations of electron current could therefore be controlled by tuning the electron-phonon coupling, which makes it a good quantum switch to control the transport of information in quantum computers.

Wang C., Ren J., Li B., Chen Q-H. (2012), Quantum transport of double quantum dots coupled to an oscillator in arbitrary strong coupling regime, European Physical Journal B (EPJ B). DOI 10.1140/epjb/e2012-30027-1"

[Martian]

Precise Nanoparticle Arrays Could Herald Exotic Electronics

"Precise Nanoparticle Arrays Could Herald Exotic Electronics
By Prachi Patel
April 6, 2012 | Latest News

Device Fabrication: Growing uniform bismuth-based topological insulators at well-defined spots might be a step towards spin-based electronics


In Formation - Optical microscopy shows arrays on mica of round and triangular bismuth selenide nanoplates. Scale bars are 100 µm. (Credit: J. Am. Chem. Soc.)

Chemists in China have precisely grown arrays of ultrathin flakes of bismuth selenide and bismuth telluride on a surface (J. Am. Chem. Soc., DOI: 10.1021/ja3021395). The bismuth compounds belong to a recently discovered class of materials called topological insulators, which researchers think promise a new realm of fast, energy-efficient electronic devices and computers. Making well-defined nanoparticle arrays such as these flakes is a key step towards such devices, says Hailin Peng, of Peking University, who led the new study.

Topological insulators conduct electrons only along their surfaces, not through their insides. Theoretical physicists predicted their existence in 2006 and experimentalists demonstrated the first such material in 2008 (Nature, DOI: 10.1038/nature06843). Bismuth compounds have become researchers’ topological insulators of choice because they are simple and cheap to make.

Engineers find a few traits of topological insulator especially exciting: One is that the electrons move in a direction determined by their spin, a quantum-mechanical property that forms the basis of magnetic data storage. Engineers hope to exploit the spin-motion connection to make superfast hard drives. The materials could also find use in “spintronic” devices, which would perform computer logic using spin rather than electron charge to represent information, leading to faster, more energy-efficient computers.

However, creating high-quality topological insulator materials is a challenge. Since the useful properties occur on the surface, nanoscale ribbons and plates would be ideal to work with because of their large surface area, says Yi Cui of Stanford University, who was not involved in the new work. So some groups have used sticky tape to peel off thin layers of material from larger crystals. Meanwhile, Cui’s group has grown nanoribbons and nanoplates on silicon substrates using physical vapor deposition (Nano Lett., DOI: 10.1021/nl101260j).

But those methods don’t allow precise control over the flakes’ thickness, their locations on the substrate, or how they lie on the surface, says Peng, all of which are crucial if the materials are to be integrated into devices. To achieve that control, Peng’s team chose mica, a smooth, chemically inert surface, as a substrate. They covered it with a mask patterned with triangular or circular patches and exposed it to oxygen plasma. The plasma etched the uncovered mica surface outside the patches, leaving behind an array of unetched triangular or circular spots. Then the researchers introduced vapors of bismuth selenide or bismuth telluride. Van der Waals forces acting between the unetched spots and the bismuth compounds deposited the compounds at those spots, forming thin plates.

The researchers used scanning electron microscopy and atomic force microscopy to confirm that the plates lay flat on the substrate, were 3 to 8 nm thick, and all had about the same area. They also used a technique called angle-resolved photoemission spectroscopy to confirm that the nanoplates had conducting surfaces and insulating interiors.

“This is quite fascinating,” says Cui, who served as Peng’s postdoctoral advisor. Controlling how topological insulator nanoplates grow at specific locations has been difficult to do, he says. “This will open up opportunities in making devices,” he says, because the plates’ array pattern should allow engineers to make multiple devices at once.

Chemical & Engineering News
ISSN 0009-2347"

[Martian]

First Sheep Cloned With "Good Fat" Is Healthier For You

"First Sheep Cloned With "Good Fat" Is Healthier For You
By Sam Gibbs - gizmodo uk
Apr 26, 2012 10:18 AM


[World's first cloned transgenic sheep made in China]

It sounds like something out of science fiction; splicing DNA from one animal into another to create some sort of genetic hybrid, but Peng Peng the sheep has made it science fact. The adorable newly-cloned lamb has become the first sheep to have a bit of a worm spliced into him, making him the very first worm-sheep on the planet.

OK, it's not like he slithers around on the floor like a woolly worm or anything; in fact you can't tell that he's a genetic hybrid from just looking at him. But he's the first of his kind.

Chinese researchers have taken a gene from the model organism C. elegans, a nematode worm, and blended it with Peng Peng's DNA. The gene basically makes him better to eat, getting him to produce "good" fat rather than an animal's standard "bad" fat. The lead researcher behind the project, Du Yutao from the Beijing Genomics Institute in Shenzhen, told Reuters:

    

Quote

"The gene was originally from the C. elegans (roundworm), which has been shown (in previous studies) to increase unsaturated fatty acids which is very good for human health."

Basically the Chinese are trying to make eating lamb better for you, and why not? We've almost gotten used to the thought of eating genetically modified crops that are healthier for you, or that grow better – so why not make your meat better for your health too? If they can make lamb, beef or any other meat that's as healthy for you as vegetables it's a win-win situation – even if it's a worm-sheep chop you're munching on. [BGI via Reuters]

Image credit: Nematode from Shutterstock, Sheep from BGI"

[Note: Caption source at World's first cloned transgenic sheep made in China]

[Martian]

China launches two navigation (i.e. GPS) satellites - China.org.cn

"China launches two navigation satellites
China.org.cn, April 30, 2012


The Long March-3B rocket carrying two satellites blasts off from the launch pad at the Xichang Satellite Launch Center in Xichang, southwest China's Sichuan Province, on April 30, 2012. China successfully launched two satellites into space Monday morning, the 12th and 13th of its indigenous global navigation and positioning network known as Beidou, or Compass system, the launch center said. (Xinhua/Tao Ming)

China successfully launched a pair of navigation satellites into space on Sunday, marking the first time two navigation satellites were launched with one rocket.

The Beidou-2 satellites, launched from the Xichang Satellite Launch Center in the southwestern province of Sichuan, was boosted by a Long March-3B carrier rocket and has entered the scheduled orbit.

It is the first time China has launched two navigation satellites with one rocket, and the two satellites will help to improve the accuracy of the Beidou, or Compass system, the center said in a statement.

China will launch three more satellites for the Beidou network this year and a global satellite positioning and navigation system will be completed in 2020 with more than 30 orbiters, the statement said.

Monday's mission marked the 160th flight of China's Long March series of carrier rockets."

[Note: Source for more detailed caption at A pair of navigation satellites launched - China.org.cn]

[Martian]

China invented chrome-plating technology 2,200 years ago. Germany: 1937. US: 1950.

5 Things You Didn’t Know About China’s Terra-Cotta Army

"5 Things You Didn’t Know About China’s Terra-Cotta Army
Relics from the legendary Chinese archaeological site are now on display in New York. Here's what you need to know.
By Kate Springer | @katespringer | May 4, 2012


Excavation continues in the largest pit, which is home to the majority of unearthed figures (Kate Springer)

While digging a well near Mount Li in Shaanxi, China, in 1974, a farmer stumbled upon one of the greatest archaeological discoveries of the century: the tomb of Qin Shi Huang Di, an emperor who died in 210 BC and was buried with a terracotta entourage. Since then, archaeologists have spent the last 40 years carefully uncovering the life-size warriors from 22 square miles of earth-and-wood pits.

So far, excavations at the Museum of the Terracotta Army, located about 25 miles east of Xian, China, have unearthed about 2,000 of the 6,000 figures thought to exist. Alongside the subterranean armies lie horses, chariots, weaponry — even acrobats meant to entertain Emperor Qin in death. Scholars say the warriors were buried with China’s first emperor to protect him in the afterlife, and were never meant to be seen. Today, this “eighth wonder of the world” attracts an estimated 2 million tourist per year.


Up close with one of the terracotta soldiers near Xian, China (Kate Springer)

For those who can’t make it to Xian, a handful of figures are on display in New York City from April 27 to August 26, as the centerpiece of an immersive exhibit in Times Square. The show will feature artifacts dating back to 221 BC, including 10 of the authentic, 6-ft.-tall clay soldiers and their armor. In honor of the exhibit, here are 5 important bits of terracotta trivia:

1. Preservation Power Archeologists have unearthed roughly 40,000 bronze weapons from the terracotta pits. From spears to battle axes, crossbows to arrowheads, these exquisitely made pieces have been preserved with the help of a protective chromium coating. Though both the Germans and Americans invented this chrome-plating technology in 1937 and 1950, respectively, it existed in China 2,200 years ago.

(article continues)"

[Martian]

Heads up, Intel: TSMC cranks up ARM chip to 3GHz | Business Tech - CNET News

"Heads up, Intel: TSMC cranks up ARM chip to 3GHz
by Brooke Crothers  May 3, 2012 7:41 PM PDT

Taiwan Semiconductor Manufacturing Company is pushing the power-sipping ARM chip design toward unfamiliar, high-performance territory.


ARM Cortex A9.
(Credit: ARM)

Taiwan Semiconductor Manufacturing Company has ripped a page right out of the Intel playbook.

TSMC announced today that a chip rolling off its advanced 28-nanometer manufacturing process was jacked up to 3.1GHz -- unheard of in the annals of ARM-based mobile system reviews.

Intel, of course, is not a stranger to fast frequencies. Its high-performance Core i desktop processors run well more than 3GHz, and even its higher-end mobile parts are rated close to 3GHz.

But that's unfamiliar territory for ARM, which is known more for power efficiency than raw power.

More specifically, the TSMC chip is a dual-core A9 today that "achieved 3.1GHz...under typical conditions" using "high performance for mobile applications" (HPM) process technology, said TSMC.

TSMC's 28-nanometer HPM process was developed for tablet and mobile consumer product applications, among other products.

The chipmaker claims that it's twice as fast as an equivalent chip built on an older 40-nanometer manufacturing process. "This work demonstrates how ARM and TSMC can satisfy high performance market demands," said Cliff Hou, TSMC Vice President, Research & Development in a statement.

TSMC is the largest contract chip manufacturer in the world and builds many of the processors that land in the most popular smartphones and tablets."

[Martian]

China launches new mapping satellite - China.org.cn

"China launches new mapping satellite
Xinhua, May 6, 2012

China successfully launched its Tianhui I-02 mapping satellite from the Jiuquan Satellite Launch Center in northwest China's Gansu province at 3:10 p.m. Sunday.


The Long March 2-D rocket carrying Tianhui I-02 mapping satellite blasts off from the launch pad at the Jiuquan Satellite Launch Center in southwest China's Gansu Province, on May 6, 2012. [Xinhua]





The satellite, which was launched using a Long March 2-D carrier rocket, has entered its preset orbit. Another similar satellite, the Tianhui I, was launched into space in August 2010.

The satellite, developed and produced by a company under the China Aerospace Science and Technology Corporation (CASC), will mainly be used to conduct scientific experiments, carry out land resource surveys and map territory, according to a statement released after the launch.

Remote sensing information and test results from the satellite will boost both the country's scientific research and economic development, said the statement.

The mission marked the 161st launch for the Long March rocket family since April 24, 1970, when a Long March-1 rocket successfully sent the country's first satellite, the Dongfanghong-1, into space."

[Martian]

Chinese Physicists Smash Distance Record For Teleportation* - Technology Review

"Chinese Physicists Smash Distance Record For Teleportation
The ability to teleport photons through 100 kilometres of free space opens the way for satellite-based quantum communications, say researchers
kfc 05/11/2012



Teleportation is the extraordinary ability to transfer objects from one location to another without travelling through the intervening space.

The idea is not that the physical object is teleported but the information that describes it. This can then be applied to a similar object in a new location which effectively takes on the new identity.

And it is by no means science fiction. Physicists have been teleporting photons since 1997 and the technique is now standard in optics laboratories all over the world.

The phenomenon that makes this possible is known as quantum entanglement,  the deep and mysterious link that occurs when two quantum objects share the same existence and yet are separated in space.

Teleportation turns out to be extremely useful. Because teleported information does not travel through the intervening space, it cannot be secretly accessed by an eavesdropper.

For that reason, teleportation is the enabling technology behind quantum cryptography, a way of sending information with close-to-perfect secrecy.

Unfortunately, entangled photons are fragile objects. They cannot travel further than a kilometre or so down optical fibres because the photons end up interacting with the glass breaking the entanglement. That severely limits quantum cryptography's usefulness.

However, physicists have had more success teleporting photons through the atmosphere. In 2010, a Chinese team announced that it had teleported single photons over a distance of 16 kilometres. Handy but not exactly Earth-shattering.

Now the same team says it has smashed this record. Juan Yin at the University of Science and Technology of China in Shanghai, and a bunch of mates say they have teleported entangled photons over a distance of 97 kilometres across a lake in China.  

That's an impressive feat for several reasons. The trick these guys have perfected is to find a way to use a 1.3 Watt laser and some fancy optics to beam the light and receive it.

Inevitably photons get lost and entanglement is destroyed in such a process. Imperfections in the optics and air turbulence account for some of these losses but the biggest problem is beam widening (they did the experiment at an altitude of about 4000 metres). Since the beam spreads out as it travels, many of the photons simply miss the target altogether.

So the most important advance these guys have made is to develop a steering mechanism using a guide laser that keeps the beam precisely on target. As a result, they were able to teleport more than 1100 photons in 4 hours over a distance of 97 kilometres.

That's interesting because it's the same channel attenuation that you'd have to cope with when beaming photons to a satellite with, say, 20 centimetre optics orbiting at about 500 kilometres. "The successful quantum teleportation over such channel losses in combination with our high-frequency and high-accuracy [aiming] technique show the feasibility of satellite-based ultra-long-distance quantum teleportation," say Juan and co.

So these guys clearly have their eye on the possibility of satellite-based quantum cryptography which would provide ultra secure communications around the world. That's in stark contrast to the few kilometres that are possible with commercial quantum cryptography gear.

Of course, data rates are likely to be slow and the rapidly emerging technology of quantum repeaters will extend the reach of ground-based quantum cryptography so that it could reach around the world, in principle at least.

But a perfect, satellite-based security system might be a useful piece of kit to have on the roof of an embassy or distributed among the armed forces.

Something for western security experts to think about.

Ref: arxiv.org/abs/1205.2024: Teleporting Independent Qubits Through A 97 Km Free-Space Channel"

[Martian]

China publishes more than 10 percent of the world's most-cited scientific research

China climbs the Nature ranks|Science-Tech|chinadaily.com.cn

"China climbs the Nature ranks
Updated: 2012-05-24 06:16
(Xinhua)

LONDON - China is on track to be the second most influential country in science publishing, said a report published by the prestigious journal Nature on Wednesday.

The Nature Publishing Index 2011 China, a supplement to Nature, calculates that papers with authors from China represent 6.6 percent of all the papers published in Nature and its affiliated journals in 2011, up from 5.3 percent in 2010.

The index also presents a new analysis of ISI Web of Knowledge data, showing that China now publishes more than 10 percent of the world's most cited scientific research.

The report said that China has increased its share of the top 1 percent of highly cited scientific articles from 1.85 percent in 2001 to 11.3 percent in 2011, ranking fourth globally now, just after the United States, Germany and Britain.

"By 2014, China could surpass Germany and the United Kingdom who currently hold second and third places," said Felix Cheung, Editor of Nature China and the index.

Meanwhile, the United States has seen its share of highly influential research drop from 64.3 percent in 2001 to 50.7 percent in 2011, according to the index.

Inside China, the top five institutions in the index are: the Chinese Academy of Sciences (CAS), the University of Science and Technology of China (USTC), Peking University, Tsinghua University, Hong Kong University of Science and Technology (HKUST)."

[Note: Secondary citation with a little more information: The Australian - China climbs the Nature ranks]

----------

I just noticed the more-detailed secondary citation by The Australian on "China climbs the Nature ranks" is behind a paywall. Therefore, I have reproduced the article here for those that want to read it.

Cookies must be enabled. | The Australian

"China climbs the Nature ranks
by: Jill Rowbotham
From: The Australian
May 24, 2012 3:00AM

CHINA is making steady gains in the world of scholarly scientific publishing according to the latest Nature journals analysis and by 2014 may be second only to the US in influence in science publishing.

According to the Nature Publishing Index 2011 China, published today as a supplement to Nature, China published more than six per cent of scientific papers.

Papers with authors from China represented 6.6 per cent, or 225 of the 3425  papers published in the 18 Nature-branded primary research journals 2011, up from 5.3 per cent, or 152 papers in 2010. This compares to 12 papers in Nature journals in 2000.

Importantly, China now publishes more than 10 per cent of the world's most cited scientific research. It increased its share of the top one per cent of highly cited scientific articles from 1.85 per cent  - 127 of 6874 articles - in 2001 to 11.3 per cent (1158 out of 10,238 articles) in 2011, and now ranks fourth globally.

"By 2014, China could surpass Germany and the UK, who currently hold second and third places,'' Nature China editor Felix Cheung said.

The US share of highly influential research dropped from 64.3 per cent - 4420 out of 6874 articles - in 2001, to 50.7 per cent (5190 out of 10,238 articles) in 2011.

The analysis noted of the 225 Chinese papers published in 2011, 48 were published in Nature Communications  which launched in April 2010.

Within China, the top performer was the Chinese Academy of Sciences. It was followed by: the University of Science and Technology of China, Peking University, Tsinghua University, Hong Kong University of Science and Technology, Xiamen University, Shanghai Jiao Tong University, University of Hong Kong, Nanjing University and BGI Shenzhen.

"People generally consider Peking and Tsinghua University as the big two in China,'' Mr Cheung said in a statement. "Although the USTC has yet to earn the same level of fame as Peking and Tsinghua University, the reality is that all three institutions are in the same league when it comes to publishing high-quality research.''


Top 10 Chinese publishing institutions, 2011
Chinese Academy of Sciences
University of Science and Technology of China
Peking University
Tsinghua University
Hong Kong University of Science and Technology
Xiamen University
Shanghai Jiao Tong University
University of Hong Kong
Nanjing University
BGI Shenzhen"

[SUPARCO]

Hello Martian,

Welcome back to the Forum.  To be honest, I only joined this forum to follow this particular topic of yours and when you didn't post for the last few days, I was a little concerned.

Keep up the good postings.

[Martian]

SUPARCO, on 03 June 2012 - 07:22 PM, said:

Hello Martian,

Welcome back to the Forum.  To be honest, I only joined this forum to follow this particular topic of yours and when you didn't post for the last few days, I was a little concerned.

Keep up the good postings.

Thank you for the compliment.

It becomes increasingly harder to find new and dramatic Chinese scientific advancements. I try to keep every post unique and distinctive. However, the accumulated posts in this thread make it difficult to find truly different and interesting discoveries.

Though there are cooperative discoveries being made by Chinese and American scientists, I usually exclude them. China is only entitled to half of the credit.

[marchpole]

China develops new rocket engine

(Xinhua)

16:42, June 14, 2012

BEIJING, June 14 (Xinhua) -- China announced Thursday that it has developed a new engine for its new generation of carrier rockets, making it the second in the world to harness such engine technologies.

The 120-ton liquid oxygen/kerosene high-pressure staged combustion cycle engine will provide an effective guarantee for the country's manned space and lunar probe missions, said the State Administration of Science,Technology and Industry for National Defence.

The engine is non-toxic and pollution-free, and features high performance and reliability.

It is the first kind of high-pressure staged combustion cycle engine for which China has proprietary intellectual property rights, said the administration.

It also makes China the second country in the world, after Russia, to grasp the core technologies for a liquid oxygen/kerosene high-pressure staged combustion cycle rocket engine.

The research project for the engine was initiated in September 2000.

It was coordinated and organized by the State Administration of Science,Technology and Industry for National Defence, and conducted by the Academy of Aerospace Propulsion Technology of China Aerospace Science & Technology Corporation.

Researchers made more than 70 technical breakthroughs in designing, manufacturing and testing, and obtained nearly 20 national defense scientific and technical achievements along with patent licenses. They also worked on nearly 50 kinds of new material.




http://english.peopl...36/7846416.html

[marchpole]

WK-75：The World's Largest Excavator

2012-06-09 – Taiyuan Heavy Industry Co., LTD, a leading manufacturer in north China’s coal-rich Shanxi province said Tuesday that it has produced one of the world’s largest excavators.

The WK-75 mining excavator, which stands 23.5 meters tall and weighs 2,000 tonnes, can dig up to 12,000 tonnes of coal hourly, said Wang Chuangmin, president of Taiyuan Heavy Machinery Group Co., Ltd.

The machine covers an area the size of a basketball court, adding that the excavator is equipped with the world’s most advanced electronics and monitoring systems.

WK series excavator is the large excavating equipment for open-pit mine developed by the company. It combines the successful experience accumulated for years from manufacturing of mining shovels, at the meanwhile absorbs lots of advanced technology for design, processing, manufacturing and control from home and abroad. It is suitable both for stripping and excavating on open-pit coal mine, iron mine and ferro-metal mine.

WK series excavator has adopted state-of-art technology, like three-dimension imitation and definite circle analysis. It is of reasonable performance, working dimensions and exerts its efficiency to fully play to enhance the matching ability with all sorts of haul trucks and crush station to better satisfy the users’ requirements of higher loading and lowest producing cost.

Electric system adopts Rectifier/Regeneration to common DC Bus-bar and variable frequency speed adjustment. The electric control, taking PLC as the core, is a 3-stage system of up-position monitoring, field bus and frequency variable speed control. It is of futures of no disturbance to power grid allowing wider range of power voltage fluctuation and high power factor. The system is loaded with software to optimize the dig/cut curve and automatically optimization of hoist and dig power distribution. The system can realize self troubleshooting and running status display, electric power calculating and so on. This system has the advantages of state-of-art technology, reliable operation, high transmission efficiency and low power consumption.

WK-75 excavator is designed to match with mining trucks with capacity above 363MT and mobile crusher station with capacity above 9000t/h.
Technical characteristic:

• Gear-rack crowding, powerful penetration, high efficiency;
  
• Gear transmission uses gears of high hardness surface to have long life;
  
• For swing and propel mechanism adopt planet reducer;
  
• Propel adopts high hand drive to prolong life time;
  
• Air release spring disk brakes are applied.

Technical Spec. of WK-75

Normal bucket volume 75m³ Max. Lifting force 4219kN Scope of bucket volume 46m³-100m³ Max. Pushing force 1354kN Lifting speed 0.92-1.84m/s Max. Crawling angle 13° Pushing speed 0.68-0.75m/s Main motor 2x1760kW Traveling speed 0.80-1.60km/h Theoretical Productivity 9519t/h

[macau boy]

Where can they use such a monster for mining? Australia may be???

[SUPARCO]

Hello,

That is one big excavator.  Good for ripping out mountains for dam construction.

[marchpole]

China aims to redraw the petaflop graph with 100 Pflops in 2015

Crouching Tiger, floppy Dragon

By Dan Olds, Gabriel Consulting • Get more from this author

Posted in HPC Blog, 19th June 2012 09:44 GMT

http://www.theregist..._supercomputer/

HPC blog China shocked the supercomputing world in late 2010 with a chart-topping 2.56 Petaflop/sec Tianhe-1A. It was a surprising system on several levels: 1) it topped the incumbent number one box (Oak Ridge’s Jaguar) by almost 50%; 2) it was the first (and, so far, only) hybrid commodity combo of Intel Xeon and NVIDIA Tesla processors to hit the top spot; and 3) it seemingly came out of nowhere, and it came out of nowhere very quickly.

Now it looks like we’re getting some advanced notice on the next Chinese Top500 shocker. I had a conversation at ISC’12 with one of Tianhe-1A’s designers, Liu Guangming, director of China’s National Supercomputer Center in Tianjin. Liu led me down part of China’s supercomputing roadmap and let slip that they fully expect to be firing up a shiny 100+petaflop/sec supercomputer within the 2015 timeframe.

Right now, they’re evaluating the architecture for this new system, and they have several choices to make. First, what CPUs will they use? They can go with Xeons (like Tianhe-1A), or with AMD, or with new China-designed and built CPUs.

Then they have to decide whether they’re going to go down the hybrid road again. If they do, will they go with NVIDIA GPUs (again, like Tianhe-1A) or locally built accelerators? It’s not surprising that they’re working on their own GPUs; my pal Rich Brueckner at insideHPC confirmed this last winter at NVIDIA’s GTC conference in Beijing.

During my translated conversation with Liu, I confirmed both the timeframe and anticipated performance of the new system: “100 pflop/s? By 2015? Really?” The reply I got was what I’d call a confident, if not supremely confident, “Yep.”


China is looking to beat this projected performance timetable。So how big a deal is this? Based on Top500 performance projections (given during this morning’s keynote presentation), we should see single system 100 petaflop/sec performance sometime in 2017. (The accompanying photo was taken during the presentation, so it’s not great quality. But I’ve circled the appropriate 100 petaflop mark on the Y axis, where it intersects with the performance prediction, and when it’s supposed to happen in red.)

If China pulls this off, we’ll see 100 pFlop/s a full two years before it we’d expect it to happen based on today’s projections, which will be quite an achievement indeed. ®

[marchpole]

The new 100 Pflops supercomputer is a joint venture between the municipal government of the City of Guangzhou and the National University of Defence Technology in Changsha，Hunan province。Construction on the complex that will house the computer on the campus Zhongshan University， has begun。Total investment is estimated at around 1.8 billion yuan。

http://news.ifeng.co...4930675_0.shtml

The City of Chongqing is working on a similar project which is also planned for completion by 2015.

[macau boy]

This is the real competition between the two super titans. IBM just retook the no.1 spot in computing speed a few weeks ago.

[SUPARCO]

Hello,

I believe China now has at least 3 Supercomputers in the top 10 list.  This is bound to only grow.

[S.U.P.A.R.C.O]

China Beats Russia on Space Launches
by Staff Writers
Moscow (RIA Novosti) Jul 09, 2012


File image.

For the first time in the history of space exploration, China beat Russia on the number of space launches in a given period of time, a rocket engine manufacturer said on Wednesday.

China conducted 10 of the world's total 35 launches in the first six months of 2012, Russia's NPO Energomash said on its website.

Russia was second with nine launches, followed by the United States with eight launches, the report said.

The list also included multinational companies Arianespace with three launches and Sea Launch with one launch, as well as India, Iran, Japan and North Korea, each of which attempted to send one satellite into orbit so far this year, the report said.

Energomash provided engines for 13 launches, or 37 percent of the world's total in 2012, said the company, which manufactures engines for Proton and Soyuz rockets.

China has been making significant headway with its space program since the 2000s. It first sent a man into orbit in 2003, conducted its first spacewalk in 2008 and its first manned spacecraft docking in June. Further plans include a permanent space station and manned flights to the moon and Mars.

http://www.spacedail...unches_999.html

[marchpole]

SUPARCO, on 24 June 2012 - 03:59 PM, said:

Hello,

I believe China now has at least 3 Supercomputers in the top 10 list.  This is bound to only grow.

Huawei network switch? Then, Huawei smartphone? Well, get used to Huawei supercomputers soon.

The Shenzhen giant company which, as its proponents will repeat, started without any government help - although, of course, it is well linked with it today - is, in line with their 'next IBM' strategy we unveiled here some months ago, widening its reach.

Geographically, they pretty much covered the Earth, and their componentry are bound to go beyond this planet too, in Chinese space missions. Target market wise, the telecoms (both consumer and enterprise related) markets are covered as well, with CPUs and systems markets now under the assault.

The newest arena Huawei is entering is at the very top: supercomputers. Why bother, when it rarely makes money? Well, Huawei management, according to our sources, thinks high performance computing can make money, and not just in China. There is enough differentiation to make the designs blades and other nodes more HPC optimised, both CPU and memory performance wise, and then use Huawei network and interconnect expertise to improve on the inter-system connection efficiency, where even the Infiniband leaves a lot to be wanted.

Huawei, according to our high level sources, already got a substantial system portion of some of the upcoming ultra large systems in China, including what would likely be the world's first 100 Petaflop supercomputer in a year's time, at least five times as fast as the just unveiled fastest US system two weeks ago. This includes the node board design and rack infrastructure, among others. Of course, more of the same will follow, both above and below that performance threshold - some of it likely with Chinese - even Huawei's own - CPUs.

Since supercomputers are a costly and tough to earn money market with even tougher customer support for most generic vendors like HP or Dell, it'll be interesting how Huawei will handle the challenges of high performance computing marketing, sales, integration and support. If the past is anything to go by, looking how Cisco fared trying to compete with Huawei, the Western SI vendors better beware. After all, they themselves killed off their only advantage - their own CPUs like Alpha or MIPS or HP-PA - to be left essentially as large scale Intel or AMD system integrators. At that point, price and little tweaks, plus support, become the only differentiators, and the Chinese can do it just as well, if not better. After all, for over a decade, even IBM's main PC server server design solution, integration and manufacturing facility for Asia Pacific was right in Shenzhen. The staff must have learned a lot during all those years, before many of them moved to the local big vendors, including Huawei...

Read more: *ttp://vr-zone.com/articles/huawei-moves-into-supercomputing-too-/16600.html#ixzz20CdhJGdw

Source: ###########/forums/chinese-defence/194100-huawei-moves-into-supercomputing-too.html#ixzz20GvhwxWg

[macau boy]

Huawei is one of the six Chinese non-SOE corporations to make the Global Fortune 500 list this year.

[Martian]

State media: China to launch manned spacecraft this month - CNN.com

"State media: China to launch manned spacecraft this month
By the CNN Wire Staff
updated 7:26 AM EDT, Sat June 9, 2012


A visitor looks at a spacesuit used by Chinese astronauts at the Shanghai Science & Technology Museum in Shanghai on January 4, 2012.

(CNN) -- China plans to launch a manned spacecraft this month to dock with a space lab that has been orbiting the Earth since September, state media reported Saturday.

The Shenzhou-9 was moved to a launch platform Saturday to allow scientists to conduct tests before the mid-June flight, Xinhua news agency reported.

This will be China's first crew expedition involving manual docking. If all goes as planned, it will be the third nation, next to the U.S. and Russia, to dock capsules in space.

"It demonstrates China's continued commitment to becoming a first-class space power with an independent space capability," Taylor Fravel, associate professor at Massachusetts Institute of Technology, said this year when China announced its plans.

'This is very exclusive club.'"

[Martian]

Portable hydrogen fuel cell unveiled - CNA ENGLISH NEWS

"Portable hydrogen fuel cell unveiled
By Chang Jung-hsiang and Kendra Lin
2012/06/15 22:29:45



Taipei, June 15 (CNA) Taiwan's Industrial Technology Research Institute (ITRI) unveiled Friday a portable fuel cell that is believed to be the first in the world to use solid-state hydrogen.

The device combines solid-state hydrogen fuel, water and a catalyst in a bottle the size of a beverage can, and it can generate sufficient electricity to power laptops and LED lights, the researchers said, demonstrating the product at a news conference held at an ITRI research park in Tainan.

A fuel cartridge containing sodium borohydride is inserted into a small generator that weighs about one kilogram and a chemical reaction takes place and produces hydrogen, they explained.

The gas is then released back into the cartridge and generates power through the fuel batteries in the cartridge, they added.

"We store hydrogen in a tablet form to make it more convenient to carry the fuel around, more user friendly. We are the only one in the world to successfully convert solid-state hydrogen into fuel," said Ku Jie-ren, director of the ITRI's New Energy Technology Division.

A cartridge can produce 20 watts that is enough to charge five to seven cell phones or three to four laptops, the research team said. Any electronic product with a USB outlet can use the device, it added.

The device, which took nearly five years to develop, is suitable for use in remote mountainous areas or after disasters, when power charging opportunities are limited, the researchers said.

It would be especially useful during war time since the process is completely silent, the developers said, adding that one country's armed forces have already shown interest in the invention.

The ITRI has commissioned a local manufacturer to begin mass producing the product later this month. The company also plans to raise the power generated by one cartridge to 40 watts.

The ultimate goal is to apply the technology to the automobile industry, said Ku."