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Plants used to weed out soil pollution
Updated: 2014-04-18 01:53
By Cheng Yingqi (China Daily)

Chinese scientists have developed soil remediation technologies to prepare for large-scale applications.

The technologies focus on using plants to absorb heavy metal contaminants in soil.

The technologies were developed by the Center for Environmental Remediation of the Institute of Geographic Sciences and Resources Research under the Chinese Academy of Sciences, which began research 10 years ago.

Soil contamination is serious in China, with large areas of cropland polluted, said Lei Mei, a professor at the center.

Soil remediation technologies have been applied on 133 hectares of land in the Guangxi Zhuang autonomous region, Henan, Yunnan and Hunan provinces and Beijing on a trial basis, and Lei said she believes the technologies will have "good application prospects".

A report from the Ministry of Environmental Protection on Thursday showed that about 19.4 percent of farmland in China was polluted, according to Xinhua News Agency.

"The publication of the survey result is a milestone for soil remediation in China," Lei said.

Before the release of the survey results on Thursday, the latest official data available was released by the Ministry of Land and Resources in 2006. That report said that about 7 percent, or 10 million hectares, of arable land in China was contaminated by heavy metals.

By 2009, the country had 135.38 million hectares of arable land.

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Credit: plants.ifas.ufl.edu

In 2005, scientists from the center proved in the laboratory that the plant Pteris vittata, or Chinese brake fern, had cleansing abilities when planted in soil polluted by heavy metals such as lead, zinc, sulfur and arsenic.

After the fern becomes saturated with heavy metals from the polluted soil, the aboveground part of the plant is cut off and burned. A new shoot grows from the root, and the process is repeated.

Field experiments since 2010 on 60 hectares of polluted land in Hechi, Guangxi Zhuang autonomous region, showed the plant can reduce heavy metals by 10 percent a year, which means it can help reduce pollutants to safe levels within three to five years.

The scientists have promoted planting of the fern among local farmers. The ferns are intercropped, or grown in the same fields, as cash crops such as flax.

Meanwhile, scientists are developing a new passivator, which is a coat with an oxide layer that protects against heavy metal contamination of the soil.

Liu Wenhua, chief engineer of the Guangdong province Research Center for Geoanalysis, recently developed a new passivator that could reduce cadmium, lead, copper and zinc in soil.


LINK
 
IBP (Institute of Biophysics) scientists discover left-handed double helix structure in 30nm chromatin fiber
2014-04-25

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Pic credit and showing: The Institute of Biophysics - Chinese Academy of Sciences

Link

The world leading scientific journal Science published a research article entitled “Cryo-EM Study of the Chromatin Fiber Reveals a Double Helix Twisted by Tetranucleosomal Units” on April 25, 2014. This article described a recent scientific breakthrough brought by scientists from the Institute of Biophysics, Chinese Academy of Sciences.

As we know, DNA is the carrier of genetic information. Each of us has long enough DNA to reach from the earth to the sun and back more than 300 times. But our entire DNA is packaged tightly through DNA-histone complex with higher-order structure and squeezed into tiny nucleus so that our bodies don’t need to grow up like giants. The DNA- histone complex is called chromatin. The packaging of chromatin plays a central role in transcriptional regulation and other DNA-related biological processes.

Studies have shown that by regulating chromatin structure within the nucleus (in particular the higher-order 30nm chromatin structure) , organisms can selectively activate or silence genes so as to control cell differentiation, tissue specificity, and cell fate. This phenomenon is called epigenetic regulation. However, the higher-order structure of chromatin has long been a "black box" to the researchers due to its tiny size and complexity.

IBP Professors ZHU Ping and LI Guohong have many years of close cooperation and unremitting efforts in studying chromatin structure. Collaborating with Professor XU Ruiming, a professor studying epigenetics at IBP, the researchers recently determined the three dimensional structure of the 30 nm chromatin fiber through cryo-electron microscopy utilizing a single particle reconstruction technique. They found, for the first time in the world, that the 30nm chromatin fiber is composed of smaller structural units. Each unit consists of 4 nucleosomes. These unites further form a higher-order left-handed double helical structure, opposite to the right-handed DNA double helical structure. At the same time, they also demonstrated for the first time that the linker histone H1 plays a critical role in the formation of the 30nm chromatin fiber.

One Science reviewer of the article comment on the achievement “How do nucleosome arrays fold into higher-order chromatin fibers remains a fundamental question in molecular biology. Over last three decades, solving the structure of the 30 nm fiber, …, remained a ‘holy grail’. The work … solving one of the most challenging biological structures”. Another reviewer comments on the study “… constitute the largest fragments of chromatin solved at this (or better) resolutions and,… constitute an important enough step forward in our understanding of how chromatin might pack …”.



(Song et al, Science,25 April 2014: Vol. 344 no. 6182 pp. 376-380,research article)

This work provides critical insight and assists us to better understand mechanisms of many important biological processes, including differential gene expression and genetic regulation during cell proliferation, development, and differentiation process, stem cell maintenance and differentiation, aging and abnormal development, and such complicated diseases as tumor, diabetes, psychiatric, and nervous system diseases.

This study is supported by funds from the Ministry of Science and Technology of China, the National Natural Science Foundation, the Chinese Academy of Sciences, and the Ministry of Education.

Link to Science
 

Intelligence industry research project launched in E China
English.news.cn 2014-04-25 23:07:38

Nanjing Qilin City and Technology Park (南京麒麟科技创新园)- landscape models and overview (中国智谷 The Intelligence Valley of China )

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Credit:http://www.qilinpark.com

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Credit: http://www.qilinpark.com

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Credit: rpgwebgame

NANJING, April 25 (Xinhua) -- A research institute focusing on the intelligence industry was established in east China on Friday to help the country sharpen its competitive edge in an intelligence revolution.


The Nanjing Research Institute of Intelligence Industry was created by the Institute of Automation under the Chinese Academy of Sciences (IACAS) in partnership with the Nanjing Qilin Technology Park.

Located in Nanjing, capital of Jiangsu Province, the research base consists of an institute, a technology park, a company and a foundation, in addition to a center for international communication, according to the IACAS.

The intelligence base will concentrate on five intelligence-related fields during its initial stage, including high-performance microprocessors, intelligence information and big data, intelligent medical equipment, advance process control and intelligent device, as well as cultural technology and visual industry.

Wang Donglin, head of the IACAS, said that the research project is both necessary and important, as China needs to stay up-to-date with the international intelligence revolution.

Wang added that it will contribute to China's economic development and serve the needs of government departments and the general public by providing state-of-the-art information technology, as it boasts advanced research and a foundation for scientific development.

LINK
 

China sees increasing invention patents

English.news.cn 2014-04-27 22:42:02


BEIJING, April 27 (Xinhua) -- China saw major progress in invention patent applications and grants as the country aims to forge an innovation-powered economy.


The State Intellectual Property Office (SIPO) accepted 156,000 invention patent applications in the first quarter of 2014, up 10.6 percent year on year.

The portion of such applications in all the accepted patent applications expanded to nearly 40 percent in the first three months.

According to a joint survey conducted by the SIPO and the National Bureau of Statistics, every 10,000 people owned an average of 4.2 invention patents at the end of March, 0.2 more than at the end of 2013.

The SIPO director Shen Changyu said intellectual property creativity in China is improving notably and the number of patents, trademarks and copyrights, is growing at a fast speed.

The survey also showed that patented inventions play an important role in enhancing profitability in major industrial enterprises

Link
 
Chinese team's breakthrough may help fight deadly Mers virus
UPDATED : Wednesday, 30 April, 2014, 8:21am
Lo Wei
Masks protect against the Mers virus in Jeddah. Photo: AFP

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Credit: virologydownunder.com

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Credit: gulfnews.com

Hong Kong and mainland scientists have identified two antibodies that could be "promising candidates" to help develop a treatment for Middle East respiratory syndrome (Mers).

The team, led by Tsinghua University researchers, is turning its experience from the severe acute respiratory syndrome (Sars) outbreak of 2003 to the new virus, which some fear could mutate and become even more deadly - although any cure for Mers remains years away.

Their research has found two antibodies - proteins produced by the immune system to identify and neutralise foreign objects - which bind effectively with the Mers virus and prevent it from entering host cells, cutting off the infection process.

The Mers virus may one day become as transmissible as the Sars coronavirus

Team member Professor Yuen Kwok-yung, an expert in infectious diseases at the University of Hong Kong, said the results were promising at a time when the virus appeared to be spreading fast, with cases increasing since the middle of last month.

More than 300 cases of Mers - a coronavirus with similarities to Sars - have been diagnosed since it was identified two years ago, and 40 per cent have been fatal.

About 75 per cent of cases are from human-to-human transmission.

Scientists believe the virus may have spread from bats to humans via camels - much as Sars is thought to have spread to humans through civet cats.

"If that is indeed the case, the Mers coronavirus may undergo further genetic changes and one day become as transmissible as the Sars coronavirus," Yuen said.

"Therefore we must prepare for this scenario before it happens."

Sars infected more than 8,000 people around the world over the course of nine months in 2002 and 2003. One-fifth of the cases and 299 of the 774 deaths were in Hong Kong.

The team discovered that antibodies could form the basis of an effective treatment through their research into Sars and the 2009 swine flu outbreak.

They studied antibodies from 58 people contained in a US "library" of human antibodies, by putting them together with the Mers virus. Two of them bound to the virus' surface protein.

Mers has not yet spread to Hong Kong, though local doctors have been instructed to watch for symptoms and tourists travelling to affected areas have been told to exercise caution.

LINK
 
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Chinese Researcher Enters Internet Hall of Fame
By Alan Aw | Top News
April 30, 2014

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钱华林 教授 Prof Qian Hualin delivering his speech during a internet forum
Credit: sina

Researcher Qian Hualin has been recognized by the Internet Society for his contributions to the web.

Professor Qian Hualin, a researcher at the Computer Network Information Center of the Chinese Academy of Sciences (CAS), has been inducted into the Internet Hall of Fame, an international accolade launched by the Internet Society (ISOC).

Prof. Qian, who was commended for his innovative contributions to the Internet, has held directorial appointments at the National Basic Research Program of China and the World Bank-funded National Computing and Networking Facility of China. His contributions include playing a key role in linking China’s network to the global Internet in 1994, and presiding over the establishment of China’s domain name system, which helped secure to “.cn” as China’s top level domain.

A computer scientist by training, Prof. Qian also led a team in 2008 to create the theoretical basis for hierarchical switched network protocols, standards and algorithms, which resulted in five patents and two software copyrights.

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胡启恒 教授
Prof Hu Qiheng
Credit: 中国互联网协会

Prof. Qian is the second Chinese to be inducted into the Internet Hall of Fame. The other member is former CAS Vice President Professor Hu Qiheng, who was inducted in 2013. A total of 24 inductees were recognized this year.

Link


The 2014 ASCE's Freudenthal Medal in Civil Engineering goes to
Professor Li Jie of Tongji University, China

for his contribution to "probabilistic density evolution analysis for nonlinear structural responses, and seismic reliability analysis of large-scale civil engineering foundation structures"

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李杰教授 Professor Li Jie
Professor of Structural Engineering Dept, Tongji University

Link

XU Chunye Honored with the 2014 “International Materials Science Prize"
2014-04-23

XU Chunye, 徐春叶, a professor from Hefei National Laboratory for Physical Sciences at the Microscale and School of Chemistry and Materials,was honored with the International Materials Science Prize at World Forum on Advanced Materials(POLYCHAR 22, 7-11 April 2014, Stellenbosch, South Africa).

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    Photo: The award presentation. Middle: Prof. Chunye Xu, left: Conference Chairman Prof. P. E. Mallon (Chair of Dept. of Chemistry and Polymer Science, University of Stellenbosch, South Africa) and right: Prize Committee Chairman Prof. J. J. Pireaux (University of Namur, Belgium)

    Prof.XU Chunye has been devoted to advanced intelligent materials for around 20 years. Her research work has been published in over 70 journal articles. Over 20 patents (including US patents, international patents and Chinese patents) have been awarded. Since 2009, at the USTC, XU has focused on the synthesis and fabrication of functional materials including electrochromic polymers and electroactive polymers for the application of color changeable windows, sunglasses, sensors and actuators. She was elected in the Hundred Talents Program (Chinese Academy of Sciences) and the Recruitment Program of Global Experts (Thousand Talents Program of Chinese Central Government). Parts of her awarded patents have already been tech-transferred to international companies,e.g. 3M, AYA, Priva (USA) and Toyoukohan (Japan). Commercial antidazzle rearview mirrors have already been in market for automobile use.

    The International Materials Science Prize was first set up in 2007 by international scientific organization of POLYCHAR (World Forum on Advanced Materials) in USA. The prize is awarded to those who make distinguishing contributions to the fundamental and application progress in the areas of macromolecule physics and chemistry. It aims to facilitate the development of polymer science by cultivating research talents and encouraging scientific innovations. Until now, eight scientists, from Czechoslovakia, Nepal, United Kingdom, South Africa, Germany, South Korea, have been awarded. It is notable that among those Prof. Chunye Xu is the first Chinese laureate.

    (HFNL)

    LINK
 
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Laser Science in China: A rich history of photonics research continues to bear fruit at SIOM

05/01/2014
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Celebrating its 50th anniversary, the Shanghai Institute of Optics and Fine Mechanics has pioneered advances in high-power lasers, high-field laser physics, and quantum optics.
RUXIN LI

Founded in May 1964, the Shanghai Institute of Optics and Fine Mechanics (SIOM) has been widely recognized as the most important research center of laser science and technology in China. SIOM is one of approximately 100 institutes of the Chinese Academy of Sciences (CAS), and its origin lies with the laser research groups of the CAS institutes in Beijing and Changchun, where the first Chinese ruby laser oscillator was demonstrated in 1961.

SIOM has become a comprehensive research institute with primary research fields that include high-power laser technologies, high-field laser physics, information optics, quantum optics, solid-state laser technologies and their applications, and materials for laser and optoelectronics. Here, in commemoration of our 50th anniversary, I would like to highlight some recent progress on laser technology development and physics research.

Fusion research

SIOM has focused on the research and development of high-power laser technology and engineering for decades. In addition to the earlier achievements in the development of high-power laser technologies and facilities for laser fusion experiments, SIOM has developed in recent years the first Chinese multikilojoule laser facility, Shenguang (SG for short and means "magic light" in Mandarin)-II facility. The SG-II laser facility includes eight laser beams (Fig. 1) in two bundles and a multifunctional beam (the ninth beam). The time synchronization among laser beams is within 10 ps root-mean-square (RMS).

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FIGURE 1. The SG-II laser facility with eight beams was completed in 2000, with a beam aperture of 240 mm and total output energy of 6 KJ at 1053 nm/1 ns and 3 KJ at 351 nm/1 ns, respectively. The ninth beam of SG-II was built in 2005 as a probe and high-pressure shock-wave driver; its output reaches 5.2 KJ/pulse with a 350-mm beam aperture.

In this facility, a fiber oscillator, fiber amplifier, and high-performance integrated waveguide element have been used in the seed units. The timing jitter (10 ps level) between different pulses is controlled efficiently by a unique short optical pulse trigger technology. A single-pixel spatial light modulator has been developed to actively control the near-field intensity of laser beams, and therefore an arbitrary spatial distribution can be easily obtained. Furthermore, an active wavefront control system is designed, optimized, and integrated in the ninth beam. The main components include a deformable mirror and a Hartmann wavefront sensor for each of the nine beams. A computer controller is adopted to correct laser aberrations, and then a good focusing ability can be obtained.

The SG-II laser facility has been stably operated for more than10 years and will be upgraded to a 20 kJ class laser facility in the near future. This facility has become an international user facility for high-energy density physics research. One of the most exciting experiments recently conducted in the facility involves laboratory astrophysics, such as the modeling of loop-top X-ray source and reconnection outflows in solar flares.1

Ultra-intense fs lasers

SIOM developed the first Chinese petawatt (PW) femtosecond laser facility in 2007 using a chirped pulse amplification (CPA) scheme. This laser system was recently upgraded to 2 PW based on a 100-mm dia. Ti:sapphire amplifier (see Fig. 2),2 which to our knowledge is the highest peak power ever achieved with a laser system. With a newly developed high-contrast broadband front end, the signal-to-noise ratio of the 26 fs long laser pulse was also improved.

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FIGURE 2. The 100-mm-diameter Ti:sapphire multipass amplifier for the 2 PW femtosecond laser facility, where both active and passive schemes for suppressing transverse parasitic lasing was successfully implemented.

The suppression of transverse parasitic lasing is regarded as a serious technical bottleneck for larger aperture CPA amplifiers of 10 PW class. As an alternative, optical parametric chirped-pulse amplification (OPCPA) can support higher energy amplification without producing a photoluminescence effect. Lithium triborate (LBO) is an attractive nonlinear crystal that can support high-efficiency and broadband OPCPA near 800 nm wavelength. A 10 PW or higher peak power femtosecond laser system can be developed by combining the Ti:sapphire-based CPA chain and a LBO-based OPCPA booster amplifier. SIOM recently implemented a hybrid Ti:sapphire-CPA and LBO-OPCPA laser system,3 which can produce an amplified pulse energy of 28.68 J with a spectral bandwidth of 80 nm (FWHM). After pulse compression, the peak power of the laser system is 0.61 PW, and the pulse length is 33.8 fs.

High-field laser physics
The laser wakefield accelerator (LWFA) can now produce multi-GeV electron beams on a much smaller scale than the conventional radiofrequency accelerators. Based on the tunnel-ionization-induced injection in the first stage, an all-optical cascaded LWFA with near-GeV quasi-monoenergetic electron beams (QMEBs) was first realized at SIOM.4 The collimated QMEBs with peak energy of ~0.8 GeV are achieved with an acceleration gradient of 187 GV/m.

A key issue in the staged LWFA scheme is controlling the seeding phase of electrons into the second stage, which SIOM recently demonstrated for the two-stage LWFA. By optimizing the seeding phase of electrons into the second stage, electron beams beyond 0.5 GeV with 3% RMS energy spread were produced over a short acceleration distance of 2 mm. Peak energy of the electron beam was further extended beyond 1 GeV by lengthening the second acceleration stage to 5 mm.5

Filamentation of intense femtosecond laser pulses in air is an important topic in high-field physics. A spectacular snowfall was induced by the filamentation of high-repetition-rate femtosecond laser pulses in a cloud chamber for the first time.6 Furthermore, SIOM demonstrated waveform-controlled terahertz radiation from an air-filament plasma driven by phase-stabilized few-cycle laser pulses.7

In recent studies, remote air lasing was created due to instantaneous buildup of population inversion in air molecular ions.8,9 Of special note, it was also demonstrated that alignment-dependent ionization probabilities of molecules from lower-lying orbitals can be retrieved by detecting the alignment dependence of fluorescence emission from tunnel-ionized carbon dioxide molecules.10

Advanced solid-state lasers

SIOM has been developing space-borne solid-state lasers and lidar systems since 2001. To date, several lasers were implemented in lidar systems that are now in orbit. The first space-qualified solid-state laser was the transmitter of the laser altimeter on China's lunar explorer Chang'E-1. This diode-pumped NdCr:YAG laser with pulse energy of 150 mJ at 1064 nm and pulse width of 5 ns was launched in 2007 and operated at 1 Hz repetition rate for ~16 months in orbit.

Every aircraft in China's lunar program since then has been equipped with space-qualified solid-state lasers manufactured by SIOM. On the Chang'E-3 probe, a Yb-doped pulsed fiber laser system with 7 ns pulse width and 50 kHz repetition rate was developed as the transmitter of the scanning image lidar. To our knowledge, it was the first space-qualified fiber laser operating in deep space.

In addition to the lasers for the Chang'E Program, different types of space-qualified lasers with long life and high reliability have also been developed in SIOM, including mid-energy diode-pumped solid-state lasers, single-frequency lasers, and mid-average-power pulsed fiber lasers.

SIOM was also one of the earliest research institutes engaged in developing high-power fiber lasers in China. In 2002, a 3.9 W single-mode fiber laser was demonstrated. Using our own double-clad fiber, up to 1.75 kW CW was obtained in 2009. In 2013, SIOM successfully assembled a 1.5 kW all-fiber engineering prototype with a beam quality m2 of 1.46. Significant progress has also been achieved in high-peak-power pulsed fiber lasers. Coherent-beam-combining (CBC) technology was also demonstrated in 2008 with two-dimensional four-fiber-laser CBC output by using a self-imaging cavity. With the realization of pulse-superposition and phase-locking, we have obtained excellent CBC for a multichannel fiber amplifier array with approximately 88.7% visibility of the far-field interference pattern.

Cold-atom physics

In recent years, SIOM's research into cold-atom physics has mainly focused on the application of laser cooling techniques, including Bose-Einstein condensates (BECs), atom chips, atom guiding with a radio-frequency field, atom interferometers, and strong coupling plasma physics in cold-atom systems. A rubidium (Rb) BEC was demonstrated in 2002 and a Rb BEC on an atom chip in 2008 (see Fig. 3).

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FIGURE 3. Bose-Einstein condensates on an atom chip: The mirror magneto-optical trap (MOT) configuration is in the top right corner; the image of a cold atom is shown in the bottom left corner; and the process from mirror MOT to BEC is shown from the top left corner to the bottom right corner.

Recently, we investigated the interactions between heteronuclear atoms, such as Rb and Yb, and demonstrated an atomic gyroscope on an atomic chip.

Research on time and frequency standards includes new conceptual microwave clocks, time and frequency transfer and dissemination in optical fibers, and optical frequency standards. The first Rb fountain clock was built in 2005; its stability now reaches to 2 ×10-15.

SIOM is also developing a space cold-atom clock that will be used in the Chinese Space Station to pursue the performance limit of microwave clocks. Besides the primary clock, the scientists developed two types of compact clocks with high stability to the level of ~10-15, including an integrating-sphere cold-atom clock and a pulsed optically pumped clock in a vapor cell.

Research on frequency transfer mainly focuses on control of noise in optical fiber for remote users. To meet the requirements of next-generation applications on frequency standards, SIOM is developing optical frequency standard techniques, including a mercury optical-lattice clock, an ultrastable laser via fiber interference, and optical frequency transfer and dissemination in a dark fiber.

High-power laser materials

Together with Hoya and Schott, SIOM is one of three global suppliers of large (up to 400 mm clear aperture) Nd-doped laser glass slabs, which are the key active material of high-power laser-fusion drivers. SIOM can provide commercial Nd:glass slabs up to 810 × 460 mm in size with a good wavefront performance (figure error less than 1/3 wavelength).

As for high-power long-lifetime flashlamps, more than 30 patented technologies have been granted to SIOM. Both pulsed and continuous flashlamps are available in different sizes and shapes, including linear, helical, and U-shaped. Dimensions range from 5 to 185 cm in arc length and from 3 to 42 mm in bore diameter.

Moreover, optical coatings for high-power laser applications can be customized for wavelength ranges from deep ultraviolet to infrared. The laser-induced damage thresholds for mirrors and polarizers are greater than 60 J/cm2 and 30 J/cm2 (1064 nm, 10 ns) respectively, which are the leading levels among the "thin film damage competition" results from the SPIE Laser Damage symposiums in recent years.

References


Laser Science in China: A rich history of photonics research continues to bear fruit at SIOM - Laser Focus World
 
:coffee::azn::china::enjoy:
Chinese scientists have achieved on any noise immunity of “Schrodinger’s cat State”

Original title: I of any scientists realize the noise immunity of Schrodinger’s cat State
I
Staff writer, Hefei, May 11-reporter Li Chenxu recently learned from the ustc, Chen Yuao academician Pan Jianwei of the school and his colleagues, Liu Naile Photonic cascade coding approach implemented has high fault-tolerance for any noise rate of Schrödinger’s cat, and towards large-scale quantum network, as well as macroscopic entangled States has taken an important step forward. The results were published in the latest edition of the authoritative academic journal nature · on Photonics.

“Schrödinger’s cat” was one of the founders of quantum mechanics what Erwin Junker started · a hypothetical experiment proposed by Schrödinger in 1935, under the special set of circumstances, cat’s life or death depends on observation, unexplored at the time of “tangled”. In 2012, Austria introduced the concept of a cascade cat State, a physicist, in which a coding scenario using an ordinary cat State as logical units, use cascaded coding combinations, you can achieve the goal of effective against Decoherence effects.

FULI :sarcastic:
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Pan Jianwei group developed a scalable encoding method using two-photon bit coded a bit of logic, has prepared a three-bit logic cascade cat State, by experimental observation on cascade cat State is different from ordinary cat State in its own haunting noise evolution illustrates coding cat State any notable advantages of noise immunity.

This entry was posted in Uncategorized and tagged Chinese scientists have achieved on any noise immunity of "Schrodinger's cat State", evidence for the prosecution, skout, window snyder on May 12, 2014 by admin.
 
Chinese scientists successfully developed two-dimentional black phosphorus field-effect transistors

:coffee::china::enjoy:

Two-dimensional crystals have emerged as a class of materials that may impact future electronic technologies. Experimentally identifying and characterizing new functional two-dimensional materials is challenging, but also potentially rewarding. Here, we fabricate field-effect transistors based on few-layer black phosphorus crystals with thickness down to a few nanometres. Reliable transistor performance is achieved at room temperature in samples thinner than 7.5 nm, with drain current modulation on the order of 105 and well-developed current saturation in the IV characteristics. The charge-carrier mobility is found to be thickness-dependent, with the highest values up to ~1,000 cm2 V−1 s−1 obtained for a thickness of ~10 nm. Our results demonstrate the potential of black phosphorus thin crystals as a new two-dimensional material for applications in nanoelectronic devices.

Parts of research findings published in the Nature Nanotechnology

Black phosphorus field-effect transistors : Nature Nanotechnology : Nature Publishing Group
 
Not to be confused with the 100 petaflops Dawning 7000 in post #355 which will use domestic Loongson chips plus a host of other indigenous hardware and software (operating and application) :azn:

Shenwei-X mentioned below is a third 100 petaflops HPC. :cool:

MAY 12, 2014

China will upgrade its world number one supercomputer to 100 petaflops next year and has sights on exaflop supercomputer[/paste:font]

The newest Intel Knight’s Landing chip will provide an approximately 3x speed boost. China can swap out the 48,000 Phi cards and maek the Tianhe-2 into a 100+ petaflops supercomputer. China will also likely upgrade the custom TH-express interconnect.

China is also hard at work on the first legs of its exascale research program with the goal being to create an “advanced and feasible architecture” that falls into the target of 30GFlops per Watt.:coffee::enjoy:







100PFlops projects will have More than double the investment compared the previous five year supercomputer project

– MOST (863)
– Local government

1.  Tianhe-2 33.86/54.9PFlops now, 2015 ~100PFlops
2.  Shenwei-x ~100PFlops

China will then have two 100 Petaflop class supercomputers.(three as a matter of fact)

China is targeting over 50GFlops/watt for its exascale architecture

New enable Tech Research

* Reconfigurable Architecture
* Optical computing and communication
* Nano-electronics
* Quantum computing

New storage Architecture

* Memristors (RRAM)
* Carbon nanotubes (China is very strong strong in this:enjoy:)
* Graphene (China is also very strong in this:tup:)

China will upgrade its world number one supercomputer to 100 petaflops next year and has sights on exaflop supercomputer
 

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