Comprehensive forum on scientific citation
On May 28th, the first "Frontier of Science-China Award for Excellence in Research and China Forum on Scientific Citation" was held in Beijing. Twenty-four papers from research institutions in Chinese mainland won the Thomson Reuters Award for Excellence in Research in China in 2007.
There are 95 authors in 24 award-winning papers, including 43 authors from China Academy of Sciences and 52 from universities and other research institutions. The thesis belongs to 8 articles in physics, 7 articles in chemistry, 4 articles in engineering, 2 articles in materials science, 1 article in mathematics, 1 article in computer science and 1 article in clinical medicine. Among the institutions to which the author belongs, the research institute of China Academy of Sciences has independently completed five articles and cooperated with other institutions to complete six articles.
Academician Rao Zihe, President of Nankai University, said in his speech: "There are not many 24 papers, but it should be said that there are too few. But it tells us that science in China has gone through 30 years of reform and opening-up, and China scientists are filling the gaps that China once lacked in the frontier research positions of the world science, and we have taken the first step from scratch. These 24 papers are only representatives of some aspects of many important achievements in China’s science and the epitome of China’s science. "
"Without an application or an expert’s defense, I just got a phone call in my office and learned that our paper won the Thomson Reuters Award for Excellence in Research. It was an accident, and I found this award easy," said Professor Long Guilu of Tsinghua University. "But when I think about it carefully, it is actually very difficult to win this award, because it was selected from thousands of articles published in 2001-2006, so I am very happy."
After the award ceremony, Jin Jinhui, an expert in bibliometrics and a researcher at the National Library of China Academy of Sciences, delivered a keynote speech entitled "Pursuing Excellence and Exploring Frontiers". She pointed out that any reward is not a goal to pursue, but an affirmation of the result. She said: "The awarding of the China Prize for Excellence in the Frontier of Science and the opening of the China Forum on Scientific Citation are of great significance because they have raised a very important value trend issue. It positions the award criteria at the forefront of world science and the academic influence of the paper itself. At present, science in China has entered a critical turning point, from the current quantitative expansion mode to the quality improvement mode. This is the inevitable trajectory of scientific development. Only by realizing this transformation can China make more contributions in the frontier fields of world science! "
In order to analyze and grasp the frontier of world science and the influence of countries in the frontier field, Thomson Science and Technology Group has set up outstanding research awards in the Asia-Pacific region to commend and encourage scientists or papers who have made outstanding contributions in the frontier field of world science. Dr. Liu Yu, Managing Director of China District of Thomson Reuters Science and Technology Group, believes that the award of "Thomson Reuters Award for Excellence in Research" represents the international community’s recognition of the collaborative research work of various disciplines and institutions in China, and at the same time highly praises their contributions in breakthrough research.
"China is at the forefront of R&D in the Asia-Pacific region and even the world, and it is a hotbed of innovation and research. We are very happy to hold such an event in recognition of China’s important contribution to the international research community. Every winner has played a vital role in today’s research field, and I would like to extend my heartfelt congratulations to them! " Liu Wei said.
Keith MacGregor, executive vice president of Thomson Reuters Science and Technology Information Group, said: "Thomson Reuters Group has always been committed to providing accurate intelligence information to the global scientific community, and at the same time setting global standards for inventions and research evaluation tools so that scientists can speed up and optimize their scientific research work. Our method has helped China scientists and researchers set the direction and let them know in which areas they are one step ahead of the world and have made significant contributions. "
The paper selection of "China Award for Excellence in Research" is a part of Thomson Technology Group’s "Asia-Pacific Research Day", which held similar activities in Japan, South Korea, India and Australia in 2006 and 2007 respectively. In the future, the "China Award for Excellence in Research" will be selected every five years.
This activity is jointly sponsored by the Science Frontier Analysis Center of the National Science Library of China Academy of Sciences, the editorial department of Science Watch and Thomson Reuters Science and Technology Group. Nearly 100 researchers, academics and government officials from different disciplines attended the meeting.
How to judge 24 award-winning papers?
On May 28th, 24 papers from research institutions in Chinese mainland won the 2007 Thomson Reuters Award for Excellence in Research in China. How were these 24 award-winning papers selected? Yue Weiping, chief science and solution consultant of Thomson Science and Technology Information Group in China, introduced the selection method of "China Excellence Research Award" to the reporter of Science Network.
China’s papers won the "Thomson Reuters Award for Excellence in Research" were selected according to the analytical methods and standards of the research frontier of Thomson Science and Technology Group, which represented the outstanding contributions of China scientists in the world’s frontier science field. By using the research frontier method to deeply analyze the documents in the citation database of Web of Science, Thomson Science and Technology Group identified 5,538 world scientific research frontiers from 2001 to 2006, which were composed of 51,429 highly cited papers (that is, the documents with the citation influence of the top 1% in each discipline). Among these 5538 research frontiers, at least one China document has 494 research frontiers; Among these 494 frontiers of China studies, there are 932 highly cited papers including China’s author. After further analysis, the researcher found that China scholars have made outstanding contributions in 24 scientific research frontiers.
"Each selected frontier must meet three requirements at the same time: first, the research frontier must include at least four highly regarded papers; Second, at least 50% of the highly cited papers in this frontier have at least one China author; Thirdly, there is at least one highly cited paper whose authors are all from Chinese mainland. Fourth, if 50% or more of the highly cited papers included in a research frontier have a self-citation rate of 40% or more, then the frontier will not be selected. After analysis, 24 research frontiers with outstanding contributions from China scholars were identified. "
On this basis, based on the further analysis of these 24 research frontiers and their high cited papers, Yue Weiping and his colleagues found that 86 of these 24 research frontiers were all highly cited papers from institutions in Chinese mainland, which reflected the ability of China scientists to innovate independently. Based on these 24 research frontiers in China, a paper with the greatest influence and all authors from Chinese mainland was selected from each research frontier, thus 24 papers won the China Prize for Excellence in Research were selected.
Introduction of 24 papers:
NO.1
Title: a highly efficient organo catalyst for direct aldol reactions of ketones with aldeydes.
Source: Journal of American Chemical Society, vol. 127, no.25, 2005, pp. 9285-9289.
Authors: Zhuo Tang (Tang Zhuo), Zhi-Hua Yang, Xiao-Hua Chen, Lin-Feng Cun (Cun Lin Feng), Ai-Qiao Mi (Mi Aiqiao), Yao-Zhong Jiang (Jiang Yaozhong), Liu-Zhu Gong (Gong Liuzhu), Chengdu Institute of Organic Chemistry, Chinese Academy of Sciences.
Research Fronts: DIRECT ENANTIOSELECTIVE ALDOL REACTIONS; DIRECT ASYMMETRIC ALDOL REACTION; DIRECT ALDOL REACTIONS; DIRECT ALDOL CONDENSATION; HIGHLY EFFICIENT ORGANOCATALYST
Field: chemistry
NO.2
Title: catalytic growth and photoluminosity properties of semiconductor single-crystal ZnS nanowires.
Source: letters of chemical physics, vol. 357,No. 3-4, pp. 314-318, 2002
Authors: Ye-Wu Wang (Wang Yewu), Li-De Zhang (Zhang Lide), Chang-Hao Liang (Liang Changhao), Guo-Zhong Wang (Wang Guozhong), Xin-Sheng Peng (Peng Xinsheng), Institute of Solid State Physics, Chinese Academy of Sciences.
Research Fronts: SEMICONDUCTOR SINGLE-CRYSTAL ZNS NANOWIRES; WURTZITE ZNS; ZNS NANORIBBONS; WURTZITE POLYTYPE MODULATED STRUCTURE; ZINC SULFIDE NANOBELTS
Field: chemistry
NO.3
Title: Comprehensive Four-Quark Interpretation of DS (2317), DS (2457), and DS (2632).
Source: Physical Review Express, Volume 93, Issue 23, 2004, No.232001
Author: Yu-Qi Chen, Institute of Theoretical Physics, Chinese Academy of Sciences (Chen Yuqi)
Xue-Qian Li, Department of Physics, Nankai University (Li Xueqian)
Research Fronts: NARROW MESON STATE DECAYING; NARROW CHARM-STRANGE MESON D-SJ(+)(2632)-> NARROW RESONANCE; B DECAYS; 46 GEV/C(2) DECAYING
Field: physics
NO.4
Title: Dark Energy Constraints from the Cosmic Age and Supernova
Source: Physics Express B, Vol.607, No.1-2, 2005, pp.35-41.
Authors: Bo Feng, Institute of High Energy Physics, Chinese Academy of Sciences, Xin-Min Zhang, Zhang Xinmin.
Institute of Theoretical Physics, Chinese Academy of Sciences (Wang Xiulian)
Research Fronts: QUINTOM DARK ENERGY; D3-BRANE DARK ENERGY MODEL; HYBRID DARK ENERGY MODEL; DARK ENERGY EVOLUTION; DARK ENERGY INTERNAL DEGREES
Field: physics
No.5
Title: extended tanh-function method and its applications to nonlinear equations.
Source: Physics Express A, Volume 277, No.4-5, 2000, pp.212-218.
Author: En-Gui Fan, Institute of Mathematics, Fudan University (Fan Engui)
Research Fronts: NEW INTEGRABLE COUPLED NONLINEAR EVOLUTION EQUATIONS; NEW EXPLICIT SOLITARY WAVE SOLUTIONS; NEW EXPLICIT TRAVELLING WAVE SOLUTIONS; NONLINEAR WAVE EQUTIONS; PERIODIC WAVE SOLUTIONS
Field: physics
NO.6
Title: global stability conditions for delayed CNNs
Source: IEEE Transactions on Circuits and Systems, Part I: Basic Theory and Applications, vol. 48, No.11, 2001, pp. 1330-1333.
Author: Jin-De Cao, Department of Applied Mathematics, Southeast University (Cao Jinde)
Research Fronts: DELAYED CELLULAR NEURAL NETWORKS DESCRIBED USING CLONING TEMPLATES; HOPFIELD NEURAL NETWORKS INVOLVING VARIABLE DELAYS; DELAYED BI-DIRECTIONAL ASSOCIATIVE MEMORY NEURAL NETWORKS; DELAYED NEURAL NETWORKS; DISCRETE-TIME CELLULAR NEURAL NETWORKS
Field: engineering
NO.7
Title: Green’s Functions for Anisotropic Electroelastic Solids with an elliptic cavity or a crack.
Source: International Journal of Engineering, Vol.39, No.12, 2001, pp.1405-1418.
Authors: Jin-Xi Liu (Liu Jinxi), Xiang-Lin Liu (Liu Xianglin), Yong-Bin Zhao (Zhao Yongbin), Department of Civil Engineering, Shijiazhuang Railway Institute.
Research Fronts: ANISOTROPIC MAGNETOELECTROELASTIC SOLIDS; CRACK PROBLEMS; MAGNETOELECTROELASTIC COMPOSITE; CRACK INITIATION BEHAVIOR; EXACT SOLUTION
Field: engineering
NO.8
Title: Highly Efficient Four-Wave Mixing in Double-& lambda; system in ultraslow propagation regime
Source: Physical Review A, Vol.70, No.5, 2005, No.053818.
Authors: State Key Laboratory of Laser Technology, Department of Physics, Huazhong University of Science and Technology, Ying Wu (Wu Ying), Center for Cold Atomic Physics, Chinese Academy of Sciences.
State Key Laboratory of Laser Technology, Xiao-Xue Yang, Department of Physics, Huazhong University of Science and Technology (Yang Xiaoxue)
Research Fronts: HIGHLY EFFICIENT FOUR-WAVE MIXING; MULTIPARTY ENTANGLED STATES USING PAIRWISE PERFECTLY EFFICIENT SINGLE-PROBE PHOTON FOUR-WAVE MIXING; OPENING OPTICAL FOUR-WAVE MIXING CHANNELS; ULTRASLOW MIXING; TWO-COLOR ULTRASLOW OPTICAL SOLITONS
Field: physics
NO.9
Title: Highly efficient pure-white-light-emitting diodes from a single polymer: polyfluorene with naphthalimide Moieties.
Source: Advanced Functional Materials, Vol.16, No.1, 2006, pp.101-106.
Authors: Guo-Li Tu, Chong-Yu Mei, Quan-Guo Zhou (Zhou Guo), Yan-Xiang Cheng (Cheng Yanxiang), Yan-Hou Geng (Geng Yan Hou), Li-Xiang Wang (Wang Lixiang), Dong-Ge Ma (Ma Dongge), Xia.
Research Fronts: MULTILAYER POLYMER LIGHT-EMITTING DIODES; FIRST SINGLE POLYMER; ACHIEVING HIGH-EFFICIENCY POLYMER WHITE-LIGHT-EMITTING DEVICES; HIGHLY EFFICIENT PURE-WHITE-LIGHT-EMITTING DIODES; WHITE-LIGHT EMISSION
Field: materials science
NO.10
Title: Highly Enantioselective Addition of Phenyllacetylene to Aldehydes Catalyzed by a Camphorsulfonamide Ligand.
Source: Organic Express, vol.6, No.8, 2004, pp.1193-1195.
Authors: Zhao-Qing Xu (Xu Zhaoqing), Chao Chen (Chen Chao), Jiang-Ke Xu (Xu Jiangke), Ming-Bo Miao, Wen-Jin Yan (Yan Wenjin), Department of Biochemistry and Molecular Biology, College of Life Sciences, Lanzhou University.
Department of Biochemistry and Molecular Biology, College of Life Sciences, Lanzhou University; bioorganic chemistry, Ministry of Education, Peking University Institute of Chemistry; and Rui Wang, Key Laboratory of Molecular Engineering (Rui Wang).
Research Fronts: HIGHLY ENANTIOSELECTIVE PHENYLACETYLENE ADDITION; HIGHLY ENANTIOSELECTIVE ADDITION; ENANTIOSELECTIVE ADDITIONS; AROMATIC KETONES CATALYZED; ALDEHYDES CATALYZED
Field: chemistry
NO.11
Title: Highly pathological H5N1 infectious virus infection in migratory birds.
Source: Science, vol. 309, No.5738, pp. 1206, 2005
Authors: College of Veterinary Medicine, China Agricultural University Jin-Hua Liu (Liu Jinhua), Xing-Lin Zhang (Zhang Xinglin), De-Ming Zhao (Zhao Deming).
Jun-Cai Ma (Ma Juncai), Wen-Jun Liu (Liu Wenjun) and Fu Gao (Gao Fu), Institute of Microbiology, Chinese Academy of Sciences.
Fu-Min Lei Institute of Zoology, Chinese Academy of Sciences (Lei Fumin)
Institute of Microbiology, Chinese Academy of Sciences, Hai-Xia Xiao (Hai Xia), Gui-Hua Wang, You-Jun Feng (Feng Youjun)
Qing-Yu Zhu, Academy of Military Medical Sciences (Zhu Qingyu)
Xiao-Wei Zhang (Zhang Xiaowei), Jian Wang (Wang Jian), Beijing Institute of Genomics, Chinese Academy of Sciences.
Research Fronts: HIGHLY PATHOGENIC H5N1 INFLUENZA VIRUS INFECTION; HIGHLY PATHOGENIC H5N1 INFLUENZA VIRUSES; HIGHLY PATHOGENIC H5N1 AVIAN INFLUENZA; HIGHLY PATHOGENIC AVIAN INFLUENZA; POTENTIALLY PANDEMIC H5N1 INFLUENZA VIRUS
Field: clinical medicine
NO.12
Title: Homotopy Perturbation Method for Bifurcation of Nonlinear Problems.
Source: International Journal of Nonlinear Science and Numerical Simulation, vol.6, No.2, 2005, pp.207-208.
Author: Ji-Huan He, School of Science, Donghua University (He Jihuan)
Research Fronts: HOMOTOPY ANALYSIS METHOD; HE’S HOMOTOPY PERTURBATION METHOD; STRONGLY NONLINEAR EQUATIONS; VARIATIONAL ITERATION METHOD; NONLINEAR WAVE EQUATIONS
Field: engineering
NO.13
Title: How to break MD5 and other hash functions
Source: Advances in Cryptography — Eurocrypt 2005, vol. 3494, pp. 19-35, 2005
Authors: Xiao-Yun Wang (Wang Xiaoyun) and Hong-Bo Yu (Yu Hongbo), Shandong University.
Research Fronts: EFFICIENT COLLISION SEARCH ATTACKS; HASH FUNCTIONS MD4; REDUCED SHA-1; FULL SHA-1; COLLISION ATTACKS
Field: computer science
NO.14
Title: investigation of the electrochemical and electrocatalytic behavior of single-wall carbon nanotube film on a glassy carbon electrode.
Source: Analytical Chemistry, Vol.73, No.5, 2001, pp.915-920.
Authors: Peking University Department of Chemistry Hong-Xia Luo (Luo Hongxia), Zu-Jin Shi (Shi Zujin), Nan-Qiang Li (Li Nanqiang), Zhen-Nan Gu (Gu Zhennan), Qian-Kun Zhuang (Zhuang Gankun).
Research Fronts: GLUCOSE OXIDASE USING ALIGNED SINGLE WALLED CARBON NANOTUBE ARRAYS; PROTEIN ELECTROCHEMISTRY USING ALIGNED CARBON NANOTUBE ARRAYS; SINGLE-WALL CARBON NANOTUBE FOREST ELECTRODES; MULTI-WALLED CARBON NANOTUBES MODIFIED ELECTRODE
Field: chemistry
NO.15
Title: Modified Kinematic Hardening Rule for Multiaxial Ratcheting Prediction
Source: International Journal of Plastic Mechanics, Vol.20, No.4-5, 2004, pp.871-898.
Authors: Xu Chen (Chen Xu), School of Chemical Engineering, Tianjin University, Rong Jiao (Jiao Rong).
Research Fronts: MULTIAXIAL RATCHETING MODELING; MULTIAXIAL RATCHETING SIMULATION; MULTIAXIAL RATCHETING PREDICTION; STRAIN RANGE DEPENDENT CYCLIC HARDENING; OHNO-WANG KINEMATIC HARDENING RULES
Field: engineering
NO.16
Title: Multiplicity results for positive solutions of some semi-positive three-point boundary value problems.
Source: Journal of Mathematical Analysis and Application, Volume 291, No.2, 2004, pp.673-689.
Author: Xi-An Xu, Department of Mathematics, Xuzhou Normal University (Xu Xi ‘an)
Research Fronts: THREE POINT BOUNDARY VALUE PROBLEMS; SEMI-POSITONE THREE-POINT BOUNDARY VALUE PROBLEMS; POSITIVE SOLUTIONS; NONLINEAR M-POINT BOUNDARY-VALUE PROBLEMS; SINGULAR M-POINT BOUNDARY
Field: Mathematics
NO.17
Title: New Coordinators for Kerr-Newman Black Hole Radiation
Source: Physics Express B, Vol.618, No.1-4, 2005, pp.14-22.
Authors: Jing-Yi Zhang (Zhang Jingyi), Zheng Zhao (Zhao Zheng), Department of Physics, Beijing Normal University.
Research Fronts: KERR-NEWMAN BLACK HOLE RADIATION; REISSNER-NORDSTROM-DE SITTER BLACK HOLES; KERR BLACK HOLES; HAWKING RADIATION; QUANTUM TUNNELING EFFECT
Field: physics
NO.18
Title: novel small organic molecules for a high enantioselective direct aldol reaction
Source: Journal of American Chemical Society, Vol.125, No.18, 2003, pp.5262-5263.
Authors: Xin Cui (Petboy), Liu-Zhu Gong (Gong Liuzhu), Ai-Qiao Mi (Mi Aiqiao), Yao-Zhong Jiang, Chengdu Institute of Organic Chemistry, Chinese Academy of Sciences.
Chengdu Institute of Organic Chemistry, Chinese Academy of Sciences, Zhuo Tang, School of Chemical Engineering, Sichuan University (Tang Zhuo)
Luo-Ting Yu, School of Chemical Engineering, Sichuan University
State Key Laboratory of Molecular Dynamics and Steady State Structure, School of Chemistry and Molecular Engineering, Peking University, Fan Jiang (Jiang Fan), Yun-Dong Wu (Wu Yundong)
Research Fronts: ENANTIOSELECTIVE DIRECT ALDOL REACTIONS CATALYZED; HIGHLY ENANTIOSELECTIVE DIRECT ALDOL REACTION; DIRECT ASYMMETRIC ALDOL REACTION; N-TERMINAL PROLYL-PEPTIDES EFFICIENTLY CATALYZE ENANTIOSELECTIVE ALDOL; ASYMMETRIC AMINOCATALYSIS
Field: chemistry
NO.19
Title: preparation and structure analysis of titanium oxide nanoparticles
Source: Applied Physics Express, Vol.79, No.22, 2001, pp.3702-3704.
Authors: Gao-Hui Du (Du Gaohui), Ren-Chao Che (Che Renchao), Zhong-Yong Yuan (Yuan Zhongyong), Beijing Electron Microscope Laboratory, Chinese Academy of Sciences.
Beijing Electron Microscope Laboratory, Chinese Academy of Sciences, Qing Chen (Chen Qing), Lian-Mao Peng (Peng Lianmao), Department of Electronics, Peking University.
Research Fronts: TIO2 NANOTUBES; TITANIUM OXIDE NANOTUBES; ION-EXCHANGEABLE TITANATE NANOTUBES; TRITITANATE NANOTUBES; TIO2-DERIVED NANOTUBES PREPARED
Field: physics
NO.20
Title: revisitation of the localized exceptions of the (2+1)-dimensional KDV equality.
Source: Journal of Physics Series A: Mathematical Physics and General Physics, Volume 34, No.2, 2001, pp. 305-316.
Authors: CCAST World Laboratory, Shanghai Jiaotong University Department of Applied Physics, Ningbo University Department of Physics Sen-Yue Lou (Lou Senyue)
Hang-Yu Ruan, Institute of Modern Physics, Ningbo University (Ruan Hangyu)
Research Fronts: (2+1)-DIMENSIONAL INTEGRABLE SYSTEMS; (2+1)-DIMENSIONAL COMPACTON SOLUTIONS; (2+1)-DIMENSIONAL SYSTEMS; MULTIVALUED LOCALIZED EXCITATIONS; (2+1)-DIMENSIONAL (M+N)-COMPONENT AKNS SYSTEM
Field: physics
NO.21
Title: strongly acidic and high-temperature hydrothermally stable meso porous alumina with ordered hexagonal structure.
Source: German Applied Chemistry, Vol.40, No.7, 2001, pp.1258-1262.
Authors: Zong-Tao Zhang (Zhang Zongtao), Yu Han (Han Yu), Lei Zhu (Lei Zhu), Run-Wei Wang (Wang Runwei), Yi Yu (Yu Yi), Shi-Lun Qiu (Qiu Shilun), Feng-Shou Xiao (Xiao Fengshou), Chemistry Department of Jilin University.
Dong-Yuan Zhao, Department of Chemistry, Fudan University (Zhao Dongyuan)
Research Fronts: HYDROTHERMALLY STABLE ORDERED HEXAGONAL MESOPOROUS ALUMINOSILICATES ASSEMBLED; HIGH-TEMPERATURE HYDROTHERMALLY STABLE MESOPOROUS ALUMINOSILICATES; HYDROTHERMALLY STABLE ALUMINOSILICATE FOAMS; ORDERED HEXAGONAL STRUCTURE
Field: chemistry
NO.22
Title: Temperature-controlled catalytic growth of ZnS nano structures by the evaporation of ZnS nano powders.
Source: Advanced Functional Materials, Vol.15, No.1, 2005, pp.63-68.
Authors: Xiao-Sheng Fang (Fang Xiaosheng), Chang-Hui Ye (Ye Changhui), Li-De Zhang (Zhang Lide), Yin-Hai Wang (Wang Yinhai), Yu-Cheng Wu (Wu Yucheng), Institute of Solid State Physics, Chinese Academy of Sciences.
Research Fronts: TEMPERATURE-CONTROLLED CATALYTIC GROWTH; TEMPERATURE-CONTROLLED GROWTH; GROWTH PROCESS; TWINNING-MEDIATED GROWTH; AL2O3 NANOBELTS
Field: materials science
NO.23
Title: Two Unprecedented 3-Connected Three-Dimensional Networks of Copper (I) Triazolates: In Situ Formation of Ligands by Cycloaddition of Nitriles and Ammonia.
Source: German Applied Chemistry, Vol.43, No.2, 2004, pp.206-209.
Authors: Jie-Peng Zhang (Zhang Jiepeng), Shao-Liang Zheng (Zheng Shaoliang), Xiao-Chun Huang (Huang Xiaochun), Xiao-Ming Chen (Chen Xiaoming), School of Chemistry and Chemical Engineering, Sun Yat-sen University.
Research Fronts:SOLVENT POLARITY-INDUCED SUPRAMOLECULAR ISOMERISM; SUPRAMOLECULAR ISOMERISM; COPPER(I) TRIAZOLATES; COPPER(I) 2-ETHYLIMIDAZOLATE; ZIGZAG CHAINS
Field: chemistry
NO.24
Title: Two-step quantum direct communication protocol using the Einstein-Podolsky-Rosen pair block.
Source: Physical Review A, No.4, Volume 68, 2003, article code: 042317.
Authors: Fu-Guo Deng, Key Laboratory of Quantum Information and Measurement, Department of Physics, Tsinghua University, Xiao-Shu Liu.
Key Laboratory of Quantum Information and Measurement, Department of Physics, Tsinghua University; Atomic and Molecular Nanoscience Center, Tsinghua University; Gui-Lu Long (Long Guilu), Institute of Theoretical Physics, Chinese Academy of Sciences.
Research Fronts: QUANTUM SECURE DIRECT COMMUNICATION; DETERMINISTIC SECURE DIRECT COMMUNICATION USING ENTANGLEMENT; TWO-STEP QUANTUM DIRECT COMMUNICATION PROTOCOL; EFFICIENT SYMMETRIC MULTIPARTY QUANTUM STATE SHARING; SECURE DIRECT COMMUNICATION BASED
Field: physics
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