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Annual output of China's satellite industry tops 200 billion yuan

2016-05-27 09:32
XinhuaEditor: Mo Hong'e


The annual output value of the Chinese satellite industry has exceeded 200 billion yuan (30 billion U.S.dollars), according to China's top aerospace administration on Thursday.

Satellite technology has been widely used in various domains in China, covering agriculture and forestry, water conservancy, housing construction, environmental protection and disaster relief, among others, said Tian Yulong, chief engineer of State Administration of Science, Technology and Industry for National Defense.

China has been making steady progress on commercial remote sensing satellites and will complete the building of a national aerospace infrastructure system for civil use in the next five years, Tian said.

China will launch nearly 100 new satellites for remote sensing, communication, broadcasting and navigation from 2016 to 2020, Tian said.

The aerospace administration is actively attracting private capital to invest in fields such as aerospace, satellite applications and data services, he said.

Tian also said China has signed more than 100 cooperative agreements with more than 30 countries on aerospace technology, and exported production overseas.


http://www.ecns.cn/business/2016/05-27/212206.shtml
 
China plans 5 new space science satellites

Xinhua | June 1, 2016, Wednesday |
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ONLINE EDITION

China will put into space five new satellites within about five years as part of the country's fast-expanding space science program, a science chief said on Wednesday.

The five satellites, including a Sino-European joint mission known as SMILE, will focus on observation of solar activities and their impact on the Earth environment and space weather, analysis of water recycling and probing of black holes, according to Wu Ji, director of the National Space Science Center under the Chinese Academy of Sciences.

They should make major breakthroughs in these fields, Wu said.

Of the five satellites, SMILE, or "Solar wind Magnetosphere Ionosphere Link Explorer," is set to blast off in 2021. The satellite is designed to study the effects of the sun on the Earth's environment and space weather by creating images of the interactions between solar winds and the Earth's magnetosphere with X-ray and ultraviolet technology.

MIT, the Magnetosphere-Ionosphere-Thermosphere coupling exploration, aims at investigating the origin of upflow ions and their acceleration mechanism and discover the key mechanism for the magnetosphere, ionosphere and thermosphere coupling.

And WCOM, the Water Cycle Observation Mission, is a bid to better understand the Earth's water cycle by simultaneous and fast measurement of key parameters such as soil moisture, ocean salinity and ocean surface evaporation.

The other two satellites are the Advanced Space-borne Solar Observatory (ASO-S) and the Einstein-Probe. The former will help scientists understand the causality among magnetic fields, flares and coronal mass ejections, while the latter is tasked with discovering quiescent black holes over all astrophysical mass ranges and other compact objects via high-energy transients.

The ASO-S is China's first solar exploration satellite, ending the nation's history of depending on foreign solar observation data.

Although the missions sound remote from ordinary people, Wu Ji insisted they are of imperative importance for space science and improving lives.

"All these projects were selected according to their scientific significance by judging committees led by scientists in an effort to give a vent for their innovation potential," Wu said.

http://www.shanghaidaily.com/nation/China-plans-5-new-space-science-satellites/shdaily.shtml
 
Chinese scientists develop portable device to detect Ebola quickly
(chinadaily.com.cn)Updated: 2016-06-01 16:48


f8bc126e4b2318b8e44400.jpg

The Ebola-testing devices developed by scientists from a Chinese university. [Photo/nwpu.edu.cn]



A team of scientists from a Chinese university have developed a palm-sized instrument that can detect the Ebola virus more quickly than traditional way and track down the virus load in body fluid.

In the traditional method, doctors or scientists have to use a method called reverse-transcription polymerase chain reaction (RT-PCR) in specialized laboratories to detect the virus. The process could take as long as a whole day to find the result.



Detection and treatment are delayed due to the time-consuming testing process, as is the real-time monitoring of viral loads in body fluid, which can harbor the virus even though it is no longer detectable in blood.

Pavel Neuzil, a professor from the Northwestern Polytechnical University in Xi'an, Shaaxi province, and his colleagues have developed and tested a cell phone-sized device that can simultaneously perform four RT-PCRs.

The new process takes less than 37 minutes, and the amount of blood required is minute and just a finger prick is enough.

The device can detect the Ebola RNA and provide information about how many RNA copies each sample has. It can also help healthcare workers track patients' viral loads in semen, breast milk and eye fluids.

It measures 100 mm by 60 mm by 33 mm, and weighs 80 grams. Such a small and efficient device is especially helpful in remote locations.

http://www.chinadaily.com.cn/china/2016-06/01/content_25577650.htm
 
Chinese scientists develop portable device to detect Ebola quickly
(chinadaily.com.cn)Updated: 2016-06-01 16:48


f8bc126e4b2318b8e44400.jpg

The Ebola-testing devices developed by scientists from a Chinese university. [Photo/nwpu.edu.cn]



A team of scientists from a Chinese university have developed a palm-sized instrument that can detect the Ebola virus more quickly than traditional way and track down the virus load in body fluid.

In the traditional method, doctors or scientists have to use a method called reverse-transcription polymerase chain reaction (RT-PCR) in specialized laboratories to detect the virus. The process could take as long as a whole day to find the result.



Detection and treatment are delayed due to the time-consuming testing process, as is the real-time monitoring of viral loads in body fluid, which can harbor the virus even though it is no longer detectable in blood.

Pavel Neuzil, a professor from the Northwestern Polytechnical University in Xi'an, Shaaxi province, and his colleagues have developed and tested a cell phone-sized device that can simultaneously perform four RT-PCRs.

The new process takes less than 37 minutes, and the amount of blood required is minute and just a finger prick is enough.

The device can detect the Ebola RNA and provide information about how many RNA copies each sample has. It can also help healthcare workers track patients' viral loads in semen, breast milk and eye fluids.

It measures 100 mm by 60 mm by 33 mm, and weighs 80 grams. Such a small and efficient device is especially helpful in remote locations.

http://www.chinadaily.com.cn/china/2016-06/01/content_25577650.htm
.
I can't help but notice that no western pharmaceutical companies are interested in developing medicine, etc for Ebola.

The reason is simple - there is just no money to be made in this area.

Therefore, we have to give more praise to Pavel Neuzil and his team from the Northwestern Polytechnical University in Xi'an, Shaaxi province.

They thoroughly deserve it.
 
FAST telescope getting tourist viewing platform
Xinhua, June 7, 2016

Tourists will have a vantage point on the vast dish of the world's largest telescope from an observation deck being developed near the awesome structure in southwest China's Guizhou province.

When complete in September, the Five hundred meter Aperture Spherical Telescope, or "FAST," will measure 500 meters in diameter, dwarfing Puerto Rico's Arecibo Observatory, which is 300 meters in diameter.

Tourist facilities with a budget of 480 million yuan (about 73.3 million U.S. dollars) are being built for science fans to observe FAST, said project manager Qian Yiquan.

With the telescope requiring radio silence in a five-kilometer radius, the observation deck is at the top of a mountain nearby.

The deck, parking lots, and a road wending its way to the remote location will be finished by September, Qian said.

Construction of FAST started in March 2011, with an investment of 1.2 billion yuan. The telescope will be used to detect and collect signals and data from the universe.
 
China Exclusive: Chinese scientists change sheep color by gene editing
Source: Xinhua 2016-06-06 23:50:30

URUMQI, June 6 (Xinhua) -- Consumers may be about to get more options for the color natural wool products as Chinese scientists have used gene editing to alter the coat colors of sheep.

The researchers in Urumqi, Xinjiang Uygur Autonomous Region, have bred five sheep with different colors with the technique, known as CRISPR-Cas9.

At the Xinjiang Academy of Zootechnical Science, the sheep are eye-catching: Two of them carry black and white fur like cows, two of them are black with white spots like spotty dogs, while the other is brown and white like unstirred cappuccino.

"The lambs, born in March, have become our lovely pets," said Liu Mingjun, head of the research team.

According to Liu, this is the first time that scientists have altered the coat colors of large animals via CRISPR-Cas9. Previous experiments on color alteration have been limited to mice.

With CRISPR-Cas9, consumers may purchase more wool products of various colors with no dye needed, and pet keepers can also order their pets with customized fur coloring, he said.

Liu's team selected ASIP, a key gene affecting the color of sheep fleece, to edit for the desired colors.

CRISPR, short for clustered regularly interspaced short palindromic repeats, was chosen as the 2015 Breakthrough of the Year by the U.S. journal Science as it acts as a type of molecular scissors able to selectively trim away unwanted genome parts and replace them with new DNA stretches. Cas9 is a specific kind of CRISPR-associated protein, with which genetic patterns can be altered by genome modification.

"The application to large animals indicates more strains of animals, not limited to livestock, will be developed via the approach, with different patterns not limited to coat colors," according to Liu.

"Compared with traditional gene mutation approaches in which researchers take decades to breed a new strain, gene editing is more much effective," he said.

His team last year designed 38 sheep that outperformed ordinary ones in muscle and wool growth. These sheep will be further studied for genetic stability during reproduction this fall.
 
Chinese scientists discover new anti-HBV gene
(People's Daily Online) 13:47, June 08, 2016

FOREIGN201606081349000461001061861.jpg

(File Photo)

Chinese scientists with the Academy of Military Sciences have found "integration factor complex" gene INTS10, which can activate the body's innate immune function and suppress replication of the hepatitis B virus (HBV).

The finding reveals for the first time the role that the gene plays in inhibiting the infection of pathogenic microorganisms. It also contributes to a better understanding of the molecular mechanism of chronic HBV infection and provides a theoretical basis for effective treatment and prevention.

The research was conducted by a team led by Zhou Gangqiao, a professor at the Academy of Military Sciences, the PLA's medical research institute.

Zhou led his team to collect more than 10,000 cases of full genetic component-type data, among which they compared the genetic differences between 1,251 cases of chronic HBV infection to 1,057 cases of naturally cleared HBV infection.

Later, from a total of 3,905 cases of infection and 3,356 individuals, the team conducted large-scale identification and validation of the genetic differences, finally coming across a new gene located at chromosome 8p21.3.

Further studies show that the INTS10 gene is capable of suppressing HBV replication.

Currently, around 120 million people in China are carriers of HBV.
 
Rust under pressure could explain deep Earth anomalies
Wednesday, June 08, 2016

Washington, DC— Using laboratory techniques to mimic the conditions found deep inside the Earth, a team of Carnegie scientists led by Ho-Kwang “Dave” Mao has identified a form of iron oxide that they believe could explain seismic and geothermal signatures in the deep mantle. Their work is published in Nature.

Iron and oxygen are two of the most geochemically important elements on Earth. The core is rich in iron and the atmosphere is rich in oxygen, and between them is the entire range of pressures and temperatures on the planet.

Full story -> Rust under pressure could explain deep Earth anomalies | Carnegie Institution for Science

Article link -> FeO2 and FeOOH under deep lower-mantle conditions and Earth's oxygen–hydrogen cycles, Nature, nature.com/articles/doi:10.1038/nature18018
 
June 16, 2016
China’s environmental conservation efforts are making a positive impact, Stanford scientists say
A series of ambitious environmental policies that invest in natural capital are improving services provided by China's ecosystems, such as flood control and sand storm mitigation, according to research conducted by an international team of scientists.

By Bjorn Carey

China gets a bad rap on its environmental stewardship, in large part due to the environmental damage and atmospheric pollution that result from the country’s rapid economic and infrastructure growth. But a new decade-long report, involving the work of 3,000 scientists, reveals that China’s environmental policies are making clear positive impacts.

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Stanford biologist Gretchen Daily is senior author of a study of how China has increased the value of its ecosystems in part by carefully managing select agricultural activities. Here, a farmer works in a field surrounded by the steeply sloped karst mountains near Yangshuo. (Image credit: Stacie Wolny)

“China has gone further than any other country, as strange as that sounds given all the devastation that we read about on the environment front there,” said Gretchen Daily, the Bing Professor of Environmental Science at Stanford and senior author on the study. “In the face of deepening environmental crisis, China has become very ambitious and innovative in its new conservation science and policies and has implemented them on a breathtaking scale.”

The efforts are guided in part by software developed by the research team, which identifies which environmental areas should be protected or restored to provide the greatest benefit. Through this work, China has eagerly incorporated science and funded some of the most far-reaching efforts in the world, which could serve as a model for other countries, according to the study’s authors.

Daily and an international team of researchers report the results of the China ecosystem assessment, which was launched by the Chinese Academy of Sciences and China’s Ministry of Environmental Protection, in the June 17 issue of Science.

Policy born from environmental crisis
Officials in China began considering significant environmental reform following a series of natural disasters in the late 1990s that were exacerbated by human activities. In particular, in 1998, massive deforestation and erosion contributed to devastating flooding along the Yangtze River. Thousands of people were killed, and more than 13 million people were left homeless following $36 billion in property damage.

That this occurred just a year after a historic drought signaled to officials in the country that steps needed to be taken to protect and restore China’s natural capital. By 2000, China developed the Natural Forest Conservation Program and the Sloping Land Conversion Program, $50 billion projects aimed at reducing natural disaster risks by restoring forest and grassland, while also improving life conditions for 120 million poverty-stricken farmers.

Such investments can have big payoffs, said Steve Polasky, Fesler-Lampert Professor of Ecological/Environmental Economics at the University of Minnesota and a co-author of the study. “Restoring forests and grasslands can reduce flooding and sandstorms, which has large benefits for the people downstream and downwind,” he said.

The new report used InVEST, a software suite designed by The Natural Capital Project for evaluating economic and environmental tradeoffs, to assess these efforts from 2000-2010 by analyzing data from satellites, soil samples, biodiversity surveys, meteorology, hydrological studies and other types of field surveys.

The researchers found that the conservation policies improved key ecosystem services such as soil retention, water supply, carbon sequestration and sand storm prevention on a country-wide scale.

“The hope is that this can bring about a transformation in the way people think of and account for the values of nature,” said Daily, who is a senior fellow at the Stanford Woods Institute for the Environment and co-director of the Natural Capital Project.

A worldwide approach for environmental accounting
Much of China’s success in these areas can be traced to how officials incorporate assessments of the state of ecosystems and their economic values to society into decision-making processes. This approach, Daily said, is applicable anywhere on planet Earth.

For instance, forests, wetlands and other heavily vegetated places play a key role in regulating the flow of water and its quality, but these are under constant threat of conversion to farming or settlement.

“China is using science to identify and define the priority areas for protection or restoration in order to improve water security in a way that anybody could apply,” she said.

Likewise, sand storms are a significant problem in eastern cities and are the result of deforestation and dry conditions. The researchers identify the areas that should be restored to mitigate storms, and which forested areas are at future risk of contributing to sand storms, and should thus be protected.

The science can inform society’s choices, Daily said, but it can’t make the final call. Research can quantify the benefits a particular area can provide if it were used to grow food or reforested to prevent floods, but ultimately it will be up to policymakers to decide, both for that region and where the decision falls within a set of national priorities.

There are still areas where China needs improvement. Although the country has the highest rate of reforestation in the world, many of the newly planted trees are not native to the regions. These plantings are a pragmatic short-term answer to rebuilding forests efficiently, quickly and inexpensively, Daily said, but don’t fare as well in the long term. This provides a basic infrastructure for wildlife, but biodiversity continues to worsen, and will do so until there is a more natural landscape.

The assessment didn’t examine other significant challenges, such as air quality and increasing greenhouse gas emissions. These will require interventions beyond ecosystem restoration alone.

“To realize the dream of becoming the ecological civilization of the 21st century, China needs more innovation in approaches to securing both nature and human well-being,” Daily said. “This is humanity’s grand challenge – and while China is only in the first phases of transformation, its efforts are inspiring adaptation and adoption of their approaches in other countries worldwide.”

The study, titled “Improvements in ecosystem services from investments in natural capital,” is published in the June 17 issue of Science.

China's environmental conservation efforts are making a positive impact, Stanford scientists say | Stanford News
 
Refer to the same Science research article of the Stanford News above, but from Michigan State.


Published: June 16, 2016
China’s environmental investments show people and nature can win
Contact(s): Sue Nichols

China’s massive investment to mitigate the ecosystem bust that has come in the wake of the nation’s economic boom is paying off. An international group of scientists finds both humans and nature can thrive – with careful attention.

The group, including scientists who have done research at Michigan State University, report on China’s first systematic national accounting of how the nation’s food production, carbon sequestration, soil and water retention, sandstorm prevention, flood mitigation and biodiversity are doing, and what trends have emerged.

The work, which spans from 2000-2010, appears in this week’s edition of Science Magazine.

“To achieve global environmental sustainability and enhance human well-being, effective government policies can play crucial roles,” said co-author Jianguo “Jack” Liu, Rachel Carson Chair in Sustainability and director of MSU’s Center for Systems Integration and Sustainability.

The paper notes that China’s effort to lift hundreds of millions of people out of poverty since the 1970s came at a high cost of environmental degradation, including deforestation and erosion that resulted in devastating flooding. The National Forest Conservation Program and the Sloping Land Conversion Program, which started around 2000, paid farmers and households in critical areas to restore forest and grassland – delivering alleviation of poverty in addition to environmental benefits.

In roughly the first decade, the programs cost $50 billion.

The researchers examined a staggering amount of data from all of mainland China – satellite images, field studies, historical records and more.

They found that food production and carbon sequestration were the ecosystem services that increased the most, while the conservation programs directly contributed most dramatically to carbon sequestration, soil and water retention and sand fixation. They found varying gains and losses depending on what part of the country they looked at. Sometimes, there were tradeoffs – such as food production and soil retention.

The paper notes that continuing to improve understanding of how people benefit when conservation programs succeed is important to future success.

Liu noted that sustainability science continues to demand the holistic approach applied to the CEA, and the increasing use of an integrated framework of telecoupling, which examines socioeconomic and environmental interactions across distance to better understand far-reaching consequences.

“It is hopeful that the experiences from increasing China’s ecosystem services can help address China’s enormous environmental challenges such as air pollution, water pollution, and resource shortages,” he said.

Besides Liu, “Improvements in Ecosystem Services from Investments in Natural Capital” was written by Zhiyun Ouyang, Hua Zheng, Yi Xiao, Stephen Polasky, Weihua Xu, Qiao Wang, Lu Zhang, Yang Xiao, Enming Rao, Ling Jiang, Fei Lu, Xiaoke Wang, Guangbin Yang, Shihan Gong, Bingfang Wu, Yuan Zeng, Wu Yang and Gretchen Daily.



China's environmental investments show people and nature can win | MSUToday | Michigan State University
 
China Focus: Growing R&D investment makes innovation more than slogan
Source: Xinhua 2016-06-17 15:56:45

BEIJING, June 17 (Xinhua)-- Innovation is more than just slogan in China as the central government and firms place more emphasis on research and development (R&D) despite downward economic pressures.

The Natural Science Foundation of China (NSFC) published a development plan for the 13th Five-Year Plan period (2016-2020) on Tuesday, which said it would elevate investment in basic research to the same level as big-spending countries by 2020.

The targets are in line with national science and technology development goals. China wants to become one of the most innovative countries by 2020 and a leading innovator by 2030 before realizing the objective of becoming a world S&T power by the 100th anniversary of the founding of the People's Republic of China in 2049.

Spending on basic research rose to 67.1 billion yuan (about 10 billion U.S. dollars) in 2015, but gaps still exist in terms of original research, world-leading scientists and the overall innovation environment, according to Gao Wen, deputy head with NSFC.

Investing in innovation is not only high on the governments' agenda, but also a priority of enterprises, which believe innovation can help them get more bang for the buck in the long run.

An annual global survey by accountancy firm KPMG showed that increased spending on R&D is a primary issue for China's manufacturing executives.

The report surveyed 360 senior executives, including 36 from China, across six industries -- aerospace and defence, automotive, conglomerates, medical devices, engineering, and industrial products and metals.

More than 62 percent of China's executives plan to spend more than 6 percent of revenue on R&D over the next two years while less than half of global respondents had planned to do the same, according to the survey.

Huawei is one of the most enthusiastic R&D investors. It spent over 9 billion U.S.dollars, about 15 percent of its revenue, to develop products and services last year.

Huawei will continue to increase investment in this regard, spending up to 30 percent of its income, according to Xu Wenwei, a senior manager with the firm said on Tuesday, during an event to mark Huawei Innovation Day in Europe.

However, more money spent does not guarantee more value created. Supportive and accompanying reform policies must support talent to really make full use of the budget.

The State Council, China's cabinet, earlier this month simplified budgeting for research projects, increased incentives for researchers, relaxed the management of equipment purchases, and rolled out preferential land use regulations for research and development institutions.

The huge pool of funds demands stricter and more detailed project management, said Gao, adding that the government will set up credit review and accountability mechanisms to ensure the R&D funds are put to proper use.
 
Two catalysts efficiently turn plastic trash into diesel
Recycling plastic can be difficult, but maybe we could squeeze something else out.
by Scott K. Johnson - Jun 19, 2016 4:00 pm UTC

Plastics are great. They can take any shape and serve an endless variety of roles. But... the beginning and end of a plastic’s life are problematic. While some plastics are made from renewable agricultural products, most are derived from petroleum. Plastics are not as easy to recycle as we'd like, and a huge percentage ends up in landfills (or the ocean), where they can be virtually immortal.

The easy way to recycle plastic is to just rip it up, melt it down, and pour a new mold. But that only works when the plastic is all the same chemical type, which is a level of purity you rarely find in a recycling bin. Without separating plastics precisely into different types, you get a mixture that is much less useful than pure plastics. We’re limited in what we can make out of it. Other methods for recycling plastics require serious energy input, like high pressure and temperatures over 400°C. That can produce a variety of hydrocarbon compounds, but they can be difficult to work with.

Recently, a team led by Xiangqing Jia of the Shanghai Institute of Organic Chemistry decided to try some chemical tricks to turn some of these plastics into something useful, even if it’s not more plastic. They worked with polyethylene, which makes up the majority of the plastic we use. Polyethylenes are essentially long chains made of repeating links of carbon, with hydrogen hanging off the side. The challenge is to break that resilient chain into shorter pieces so we can use the pieces to make other compounds.


Full story -> Two catalysts efficiently turn plastic trash into diesel | Ars Technica

Science Advances, 2016. DOI: 10.1126/sciadv.1501591
 
Ten institutions that dominated science in 2015

20 April 2016

The top 10 institutions in the Nature Index are the largest contributors to papers published in 68 leading journals in 2015.

Full list of institutions
2016 tables
How the Nature Index works

1. Chinese Academy of Sciences (CAS), China

Weighted fractional count (WFC): 1357.82

Established in 1949 in Beijing, the Chinese Academy of Sciences (CAS) is the world’s largest scientific organisation, comprising 114 institutes and 48,500 researchers. In 2015 its scientists made the largest contribution to high-quality research included in the index, a contribution that’s grown by a compound annual growth rate of 6.8% since 2012. Last year, one of the oldest CAS research centres, the Institute of Chemistry, founded in 1956, was also one of the largest contributing departments to the institute’s weighted fractional count. Lei Jiang, from the Institute of Chemistry, says: “Chemistry and materials science are currently strong in China because they were relatively easy subjects to start researching back in the 1980s. They didn’t need expensive equipment. If you look at nanoscience as an example, around half of the top scientists in global nanoscience are Chinese scientists who were educated during this period.”

2. Harvard University, United States

WFC: 772.33

As the second most prolific institution in the Index, and the most prolific university, Harvard University owes two-thirds of its research output to contributions made in the life sciences. Recognising the growth of interdisciplinary research areas such as translational medicine in the life sciences, Harvard has responded by developing an integrated PhD programme that facilitates cross-disciplinary academic and research collaboration. The Harvard Medical School (HMS), established in 1782, is one of the discipline’s high-fliers. Since the 1930s, fifteen researchers from HMS have shared in nine Nobel Prizes. For the most recent of them, in 2009, Jack Szostak discovered how telomeres cap the ends of chromosomes and protect them from degradation, opening up new lines of enquiry into ageing and cancer research. While last year, a popular piece of research from Harvard’s sleep medicine department highlighted the negative effects of light-emitting e-readers on sleep quality.

3. French National Centre for Scientific Research (CNRS), France

WFC: 699.45

The French National Centre for Scientific Research (CNRS) is the largest fundamental research organisation in Europe, comprising ten institutions with more than 32,000 researchers, engineers and technicians. The physical sciences made up more than a third of the contributions to the Index in 2015. In recent years the CNRS has become a key player in planetary science. CNRS engineers have been remotely operating and maintaining instruments on board NASA’s Curiosity Rover, which has been exploring Mars since 2012. The mission lead to the confirmation late last year that liquid water currently flows on the planet. This year CNRS researcher Franck Montmessin is leading the European Space Agency’s mission ExoMars 2016 to investigate the planet’s atmosphere and find evidence of past life beneath its surface.

4. Max Planck Society, Germany

WFC: 655.67

Ranked fourth in the Nature Index, the Max Planck Society has the physical sciences to thank for its high position. Since 1914, physics researchers at Max Planck, a government-funded association of research institute, have won nine Nobel Prizes. The society is named after the quantum theorist, Max Planck, the institute’s second Nobel recipient in 1918, four years after Max von Laue won for his pioneering work in X-ray crystallography. During the Second World War, Laue’s gold medal was dissolved in acid to prevent discovery by the Nazis, and then recast by the Nobel Society after the war. Today, two institutes stand out in terms of research output in the index: the polymer and solid state research units. Last year, nanochemistry scientists focusing on solid-state research published a paper in Advanced Materials that explored moisture-sensitive technology and its potential use in touchless screens.

5. Stanford University, United States

WFC: 530.83

When Stanford University opened its doors to students in 1891, it became one of America’s first non-sectarian, co-educational private colleges. Stanford’s first president, David Starr Jordan, said: “Work in applied science is to be carried out side-by-side with the pure sciences and humanities, and to be equally fostered.” This attitude remains true today as research output is equally balanced between all the disciplines. The university is also credited for its entrepreneurial spirit. During the 1950s, the University leased land to a new industrial park that went on to become Silicon Valley. To this day, Stanford researchers continue this legacy of real-world influence. Howard Rose, a Stanford residential fellow and CEO of Deep Stream VR, is currently developing a virtual reality app called Cool! that is designed to immerse patients in a world that enables them to manage chronic pain without drugs.

more @ http://www.natureindex.com/news-blo...ifteen?utm_source=taboola&utm_medium=referral
 
June 19, 2016
China Debuts 93-Petaflops ‘Sunway’ with Homegrown Processors
Tiffany Trader

You may have heard the rumors, but now it’s official: China has built and deployed a 93 petaflops LINPACK (125 petaflops peak) Chinese-made supercomputer at its Wuxi Supercomputer Center, near Shanghai. A few days ago HPCwire received an advance copy of a report on the new system prepared by TOP500 author Jack Dongarra detailing the feeds and speeds and proffering perspective on its strengths and weaknesses.

Originally, Tianhe-2 was on deck to be China’s first 100-petaflopper based on a planned infusion of Intel Xeon Knights Landing CPUs. There was chatter that China could even be standing up two 100-petafloppers in time for the ISC TOP500 list publication, but the US embargo regulations restricting the sale of US processor technology into China pushed back the timeline. It was this trade restriction that spurred China to refocus efforts on its native chip technology. At the 12th Asian Connections workshop in Wuhan, China, in April, Beihang University Professor Depei Qian, who is helping steer the nation’s supercomputing roadmap as part of the 863 project, stressed the need for “self-controllable HPC technologies” on account of a “lesson learnt from the embargo regulation.”

During ISC 2016 this week, we expect more details on the fully-realized Tianhe-2 to be revealed as well as an update on the nation’s exascale plans now that Tianhe-3 has been named as the targeted first exascale system. (Recall that China has announced it will stand up an exaflops (peak) machine by 2020.)

Sunway-TaihuLight-System-2016.png

Sunway TaihuLight System computer room

Full story -> http://www.hpcwire.com/2016/06/19/china-125-petaflops-sunway/
 
China's new radar system can penetrate walls and provide scanning imagery of objects inside houses
(People's Daily Online) 14:33, June 20, 2016

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Terahertz imaging. (File photo)​

China has completed research and development of a new radar system, which can penetrate walls and provide scanning imagery of objects inside houses.

According to a report on the website of the State Administration of Science, Technology and Industry for National Defense on June 15, China Electronic Technology Corporation (CETC) has completed the prototype R&D of China’s first all-solid-state Terahertz imaging radar system, with all the major indexes meeting the expected effects aimed for. The achievement means that CETC’s Terahertz imaging radar technology is advanced at a world-wide level.

Terahertz technology has been a research hotspot in recent years. Terahertz signals carry high frequencies, have short wave lengths, high temporal-frequency spectrum signal to noise ratio and low transmission loss in dense smoke-filled or dusty environments. It can go through walls and scan objects inside of houses, which is an ideal technology for the environment of battlefields.

In urban combat and anti-terrorist combat in the future, the Terahertz imaging radar system can provide three-dimensional stereoscopic imaging of objects behind walls; detect hidden weapons and militants under disguise and show tanks, artillery and other equipment even hidden by smoke.

With the joint efforts of several research institutes under CETC, the R&D of this new radar system only took over two years to achieve major research progress. Now, they have completed the broadband Terahertz one-dimensional range profile and ISAR imaging experiment and acquired the first ISAR image with resolution, image side lobes, electrical levels and other indexes meeting the expected effect.
 

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