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DIRECT ASYMMETRIC ALDOL REACTION; DIRECT ALDOL REACTIONS; DIRECT ALDOL CONDENSATION; HIGHLY EFFICIENT ORGANOCATALYST ÁìÓò£º»¯Ñ§ NO.2 ±êÌ⣺Catalytic growth and photoluminescence properties of semiconductor single-crystal ZnS nanowires À´Ô´£º¡¶»¯Ñ§ÎïÀíѧͨѶ¡·2002Äê357¾í3-4ÆÚ314-318Ò³ ×÷ÕߣºÖпÆÔº¹ÌÌåÎïÀíÑо¿Ëù Ye-Wu Wang£¨ÍõÒµÎ飩, Li-De Zhang£¨ÕÅÁ¢µÂ£©, Chang-Hao Liang£¨Áº³¤ºÆ£©, Guo-Zhong Wang£¨Íô¹úÖÒ£©, Xin-Sheng Peng£¨ÅíÐÂÉú£© Research Fronts: SEMICONDUCTOR SINGLE-CRYSTAL ZNS NANOWIRES; WURTZITE ZNS; ZNS NANORIBBONS; WURTZITE POLYTYPE MODULATED STRUCTURE; ZINC SULFIDE NANOBELTS ÁìÓò£º»¯Ñ§ NO.3 ±êÌ⣺Comprehensive Four-Quark Interpretation of Ds(2317), Ds(2457), and Ds(2632) À´Ô´£º¡¶ÎïÀíÆÀÂۿ챨¡·2004Äê93¾í23ÆÚ ÎÄÕºÅ232001 ×÷ÕߣºÖпÆÔºÀíÂÛÎïÀíÑо¿Ëù Yu-Qi Chen£¨³ÂÔ£Æô£© ÄÏ¿ª´óѧÎïÀíϵ Xue-Qian Li£¨ÀîѧDZ£© Research Fronts: NARROW MESON STATE DECAYING; NARROW CHARM-STRANGE MESON D-SJ(+)(2632)-> NARROW RESONANCE; B DECAYS; 46 GEV/C(2) DECAYING ÁìÓò£ºÎïÀí NO.4 ±êÌ⣺Dark energy constraints from the cosmic age and supernova À´Ô´£º¡¶ÎïÀí¿ì±¨B¡·2005Äê607¾í1-2ÆÚ35-41Ò³ ×÷ÕߣºÖпÆÔº¸ßÄÜÎïÀíÑо¿Ëù Bo Feng£¨·ë²¨£©, Xin-Min Zhang£¨ÕÅÐÂÃñ£© ÖпÆÔºÀíÂÛÎïÀíÑо¿Ëù Xiu-Lian Wang£¨ÍõÐãÁ«£© Research Fronts: QUINTOM DARK ENERGY; D3-BRANE DARK ENERGY MODEL; HYBRID DARK ENERGY MODEL; DARK ENERGY EVOLUTION; DARK ENERGY INTERNAL DEGREES ÁìÓò£ºÎïÀí No.5 ±êÌ⣺Extended tanh-function method and its applications to nonlinear equations À´Ô´£º¡¶ÎïÀí¿ì±¨A¡·2000Äê277¾í4-5ÆÚ212-218Ò³ ×÷Õߣº¸´µ©´óѧÊýѧÑо¿Ëù En-Gui Fan£¨·¶¶÷¹ó£© Research Fronts: NEW INTEGRABLE COUPLED NONLINEAR EVOLUTION EQUATIONS; NEW EXPLICIT SOLITARY WAVE SOLUTIONS; NEW EXPLICIT TRAVELLING WAVE SOLUTIONS; NONLINEAR WAVE EQUTIONS; PERIODIC WAVE SOLUTIONS ÁìÓò£ºÎïÀí NO.6 ±êÌ⣺Global Stability Conditions for Delayed CNNs À´Ô´£º¡¶IEEEµç·Óëϵͳ»ã¿¯£¬µÚÒ»²¿·Ö£º»ù´¡ÀíÂÛÓëÓ¦Óá·2001Äê48¾í11ÆÚ1330-1333Ò³ ×÷Õߣº¶«ÄÏ´óѧӦÓÃÊýѧϵ Jin-De Cao£¨²Ü½øµÂ£© 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 ÁìÓò£º¹¤³Ì NO.7 ±êÌ⣺Green's functions for anisotropic magnetoelectroelastic solids with an elliptical cavity or a crack À´Ô´£º¡¶¹ú¼Ê¹¤³ÌѧÔÓÖ¾¡·2001Äê39¾í12ÆÚ1405-1418Ò³ ×÷ÕߣºÊ¯¼ÒׯÌúµÀѧԺÍÁľ¹¤³Ìϵ Jin-Xi Liu£¨Áõ½ðϲ£©, Xiang-Lin Liu£¨ÁõÏìÁÖ£©, Yong-Bin Zhao£¨ÕÔÓÀ±ó£© Research Fronts: ANISOTROPIC MAGNETOELECTROELASTIC SOLIDS; CRACK PROBLEMS; MAGNETOELECTROELASTIC COMPOSITE; CRACK INITIATION BEHAVIOR; EXACT SOLUTION ÁìÓò£º¹¤³Ì NO.8 ±êÌ⣺Highly efficient four-wave mixing in double-¦« system in ultraslow propagation regime À´Ô´£º¡¶ÎïÀíÆÀÂÛA¡·2005Äê70¾í5ÆÚ ÎÄÕºÅ053818 ×÷Õߣº¼¤¹â¼¼Êõ¹ú¼ÒÖصãʵÑéÊÒ¡¢»ªÖпƼ¼´óѧÎïÀíϵ¡¢ÖпÆÔºÀäÔ×ÓÎïÀíÖÐÐÄ Ying Wu£¨ÎâÓ±£© ¼¤¹â¼¼Êõ¹ú¼ÒÖصãʵÑéÊÒ¡¢»ªÖпƼ¼´óѧÎïÀíϵ Xiao-Xue Yang£¨ÑîÏþÑ©£© 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 ÁìÓò£ºÎïÀí NO.9 ±êÌ⣺Highly Efficient Pure-White-Light-Emitting Diodes from a Single Polymer: Polyfluorene with Naphthalimide Moieties À´Ô´£º¡¶ÏȽø¹¦ÄܲÄÁÏ¡·2006Äê16¾í1ÆÚ101-106Ò³ ×÷ÕߣºÖпÆÔº³¤´ºÓ¦Óû¯Ñ§Ñо¿Ëù Guo-Li Tu, Chong-Yu Mei, Quan-Guo Zhou£¨ÖÜÈ«¹ú£©, Yan-Xiang Cheng£¨³ÌÑÓÏ飩, Yan-Hou Geng£¨¹¢ÑÓºò£©, Li-Xiang Wang£¨ÍõÀûÏ飩, Dong-Ge Ma£¨Âí¶«¸ó£©, Xia-Bin Jing£¨¾°åÚ±ó£©, Fo-Song Wang£¨Íõ·ðËÉ£© 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 ÁìÓò£º²ÄÁÏ¿Æѧ NO.10 ±êÌ⣺Highly Enantioselective Addition of Phenylacetylene to Aldehydes Catalyzed by a Camphorsulfonamide Ligand À´Ô´£º¡¶Óлú¿ì±¨¡·2004Äê6¾í8ÆÚ1193-1195Ò³ ×÷ÕߣºÀ¼ÖÝ´óѧÉúÃü¿ÆѧѧԺÉúÎﻯѧÓë·Ö×ÓÉúÎïѧϵ Zhao-Qing Xu£¨ÐíÕ×Çࣩ, Chao Chen£¨³Â³¬£©, Jiang-Ke Xu£¨Ðí½ç棩, Ming-Bo Miao, Wen-Jin Yan£¨ãÆÎĽõ£© À¼ÖÝ´óѧÉúÃü¿ÆѧѧԺÉúÎﻯѧÓë·Ö×ÓÉúÎïѧϵ¡¢±±¾©´óѧ»¯Ñ§Ôº ½ÌÓý²¿ÉúÎïÓлú»¯Ñ§Óë·Ö×Ó¹¤³ÌÖصãʵÑéÊÒ Rui Wang£¨ÍõÈñ£© Research Fronts: HIGHLY ENANTIOSELECTIVE PHENYLACETYLENE ADDITION; HIGHLY ENANTIOSELECTIVE ADDITION; ENANTIOSELECTIVE ADDITIONS; AROMATIC KETONES CATALYZED; ALDEHYDES CATALYZED ÁìÓò£º»¯Ñ§ NO.11 ±êÌ⣺Highly Pathogenic H5N1 Influenza Virus Infection in Migratory Birds À´Ô´£º¡¶¿Æѧ¡·2005Äê309¾í5738ÆÚ1206Ò³ ×÷ÕߣºÖйúÅ©Òµ´óѧÊÞҽѧԺ Jin-Hua Liu£¨Áõ½ð»ª£©, Xing-Lin Zhang£¨ÕÅÐËÁÖ£©, De-Ming Zhao£¨ÕÔµÂÃ÷£© ÖпÆԺ΢ÉúÎïÑо¿Ëù Jun-Cai Ma£¨Âí¿¡²Å£©, Wen-Jun Liu£¨ÁõÎľü£©, Fu Gao£¨¸ß¸££© ÖпÆÔº¶¯ÎïÑо¿Ëù Fu-Min Lei£¨À׸»Ãñ£© ÖпÆԺ΢ÉúÎïÑо¿Ëù¡¢ÖпÆÔºÑо¿ÉúÔº Hai-Xia Xiao£¨Ð£º£Ï¼£©, Gui-Hua Wang, You-Jun Feng£¨·ëÓѾü£© ¾üÊÂҽѧ¿ÆѧԺ Qing-Yu Zhu£¨×£ÇìÓࣩ ÖпÆÔº±±¾©»ùÒò×éÑо¿Ëù Xiao-Wei Zhang£¨ÕÅСࣩ, Jian Wang£¨Íô½¨£© 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 ÁìÓò£ºÁÙ´²Ò½Ñ§ NO.12 ±êÌ⣺Homotopy Perturbation Method for Bifurcation of Nonlinear Problems À´Ô´£º¡¶¹ú¼Ê·ÇÏßÐÔ¿ÆѧÓëÊýֵģÄâÔÓÖ¾¡·2005Äê6¾í2ÆÚ207-208Ò³ ×÷Õߣº¶«»ª´óѧÀíѧԺ Ji-Huan He£¨ºÎ¼ª»¶£© Research Fronts: HOMOTOPY ANALYSIS METHOD; HE'S HOMOTOPY PERTURBATION METHOD; STRONGLY NONLINEAR EQUATIONS; VARIATIONAL ITERATION METHOD; NONLINEAR WAVE EQUATIONS ÁìÓò£º¹¤³Ì NO.13 ±êÌ⣺How to Break MD5 and Other Hash Functions À´Ô´£º¡¶ÃÜÂëѧ½øÕ¹¡ªEUROCRYPT 2005¡·2005Äê3494¾í19-35Ò³ ×÷ÕߣºÉ½¶«´óѧ Xiao-Yun Wang£¨ÍõСÔÆ£©, Hong-Bo Yu£¨Óں鲨£© Research Fronts: EFFICIENT COLLISION SEARCH ATTACKS; HASH FUNCTIONS MD4; REDUCED SHA-1; FULL SHA-1; COLLISION ATTACKS ÁìÓò£º¼ÆËã»ú¿Æѧ NO.14 ±êÌ⣺Investigation of the Electrochemical and Electrocatalytic Behavior of Single-Wall Carbon Nanotube Film on a Glassy Carbon Electrode À´Ô´£º¡¶·ÖÎö»¯Ñ§¡·2001Äê73¾í5ÆÚ915-920Ò³ ×÷Õߣº±±¾©´óѧ»¯Ñ§Ïµ Hong-Xia Luo£¨ÂÞºìϼ£©, Zu-Jin Shi£¨Ê©×æ½ø£©, Nan-Qiang Li£¨ÀîÄÏÇ¿£©, Zhen-Nan Gu£¨¹ËÕòÄÏ£©, Qian-Kun Zhuang£¨×¯Ç¬À¤£© 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 ÁìÓò£º»¯Ñ§ NO.15 ±êÌ⣺Modified kinematic hardening rule for multiaxial ratcheting prediction À´Ô´£º¡¶¹ú¼ÊËÜÐÔÁ¦Ñ§ÔÓÖ¾¡·2004Äê20¾í4-5ÆÚ871-898Ò³ ×÷ÕߣºÌì½ò´óѧ»¯¹¤Ñ§Ôº Xu Chen£¨³ÂÐñ£©, Rong Jiao£¨½¹ÈÙ£© Research Fronts: MULTIAXIAL RATCHETING MODELING; MULTIAXIAL RATCHETING SIMULATION; MULTIAXIAL RATCHETING PREDICTION; STRAIN RANGE DEPENDENT CYCLIC HARDENING; OHNO-WANG KINEMATIC HARDENING RULES ÁìÓò£º¹¤³Ì NO.16 ±êÌ⣺Multiplicity results for positive solutions of some semi-positone three-point boundary value problems À´Ô´£º¡¶Êýѧ·ÖÎöÓëÓ¦ÓÃÔÓÖ¾¡·2004Äê291¾íµÚ2ÆÚ£¬673-689Ò³ ×÷ÕߣºÐìÖÝʦ·¶´óѧÊýѧϵ¡¡Xi-An Xu£¨ÐìÎ÷°²£© 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 ÁìÓò£ºÊýѧ NO.17 ±êÌ⣺New coordinates for Kerr-Newman black hole radiation À´Ô´£º¡¶ÎïÀí¿ì±¨B¡·2005Äê618¾íµÚ1-4ÆÚ£¬14-22Ò³ ×÷Õߣº±±¾©Ê¦·¶´óѧÎïÀíϵ¡¡Jing-Yi Zhang£¨Õž¸ÒÇ£©, Zheng Zhao£¨ÕÔá¿£© Research Fronts: KERR-NEWMAN BLACK HOLE RADIATION; REISSNER-NORDSTROM-DE SITTER BLACK HOLES; KERR BLACK HOLES; HAWKING RADIATION; QUANTUM TUNNELING EFFECT ÁìÓò£ºÎïÀíѧ NO.18 ±êÌ⣺Novel Small Organic Molecules for a Highly Enantioselective Direct Aldol Reaction À´Ô´£º¡¶ÃÀ¹ú»¯Ñ§»áÖ¾¡·2003Äê125¾íµÚ18ÆÚ£¬5262-5263Ò³ ×÷ÕߣºÖпÆÔº³É¶¼Óлú»¯Ñ§Ñо¿Ëù Xin Cui£¨´ÞÐÀ£©, Liu-Zhu Gong£¨¹¨Á÷Öù£©, Ai-Qiao Mi£¨åµ°®ÇÉ£©, Yao-Zhong Jiang£¨½¯Ò«ÖÒ£© ÖпÆÔº³É¶¼Óлú»¯Ñ§Ñо¿Ëù¡¢ËÄ´¨´óѧ»¯Ñ§¹¤³ÌѧԺ Zhuo Tang£¨ÌÆ׿£© ËÄ´¨´óѧ»¯Ñ§¹¤³ÌѧԺ Luo-Ting Yu ±±¾©´óѧ»¯Ñ§Óë·Ö×Ó¹¤³ÌѧԺ ¹ú¼Ò·Ö×Ó¶¯Á¦Ñ§ÓëÎÈ̬½á¹¹ÖصãʵÑéÊÒ Fan Jiang£¨½¯·«£©, Yun-Dong Wu£¨ÎâÔƶ«£© 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 ÁìÓò£º»¯Ñ§ NO.19 ±êÌ⣺Preparation and structure analysis of titanium oxide nanotubes À´Ô´£º¡¶Ó¦ÓÃÎïÀí¿ì±¨¡·2001Äê79¾íµÚ22ÆÚ£¬3702-3704Ò³ ×÷ÕߣºÖпÆÔº±±¾©µç×ÓÏÔ΢¾µÊµÑéÊÒ Gao-Hui Du£¨¶Å¸ß»Ô£©, Ren-Chao Che£¨³µÈʳ¬£©, Zhong-Yong Yuan£¨Ô¬ÖÒÓ£© ÖпÆÔº±±¾©µç×ÓÏÔ΢¾µÊµÑéÊÒ¡¢±±¾©´óѧµç×Óѧϵ Qing Chen£¨³ÂÇ壩, Lian-Mao Peng£¨ÅíÁ·Ã¬£© Research Fronts: TIO2 NANOTUBES; TITANIUM OXIDE NANOTUBES; ION-EXCHANGEABLE TITANATE NANOTUBES; TRITITANATE NANOTUBES; TIO2-DERIVED NANOTUBES PREPARED ÁìÓò£ºÎïÀíѧ NO.20 ±êÌ⣺Revisitation of the localized excitations of the (2+1)-dimensional KdV equation À´Ô´£º¡¶ÎïÀíѧÔÓÖ¾A¼£ºÊýѧÎïÀíѧÓëÆÕͨÎïÀíѧ¡·2001Äê34¾íµÚ2ÆÚ£¬305-316Ò³ ×÷ÕߣºCCASTÊÀ½çʵÑéÊÒ¡¢ÉϺ£½»Í¨´óѧӦÓÃÎïÀíϵ¡¢Äþ²¨´óѧÎïÀíϵ Sen-Yue Lou£¨Â¥ÉÔÀ£© Äþ²¨´óѧÏÖ´úÎïÀíÑо¿Ëù Hang-Yu Ruan£¨ÈÓ 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 ÁìÓò£ºÎïÀíѧ NO.21 ±êÌ⣺Strongly Acidic and High-Temperature Hydrothermally Stable Mesoporous Aluminosilicates with Ordered Hexagonal Structure À´Ô´£º¡¶µÂ¹úÓ¦Óû¯Ñ§¡·2001Äê40¾íµÚ7ÆÚ£¬1258-1262Ò³ ×÷Õߣº¼ªÁÖ´óѧ»¯Ñ§Ïµ Zong-Tao Zhang£¨ÕÅ×ÚÌΣ©, Yu Han£¨º«Ó, Lei Zhu£¨ÖìÀÚ£©, Run-Wei Wang£¨ÍõÈóࣩ, Yi Yu£¨ÓÚÒÊ£©, Shi-Lun Qiu £¨ôÃʽÂÚ£©, Feng-Shou Xiao£¨Ð¤·áÊÕ£© ¸´µ©´óѧ»¯Ñ§Ïµ Dong-Yuan Zhao£¨ÕÔ¶«Ô¶£© Research Fronts: HYDROTHERMALLY STABLE ORDERED HEXAGONAL MESOPOROUS ALUMINOSILICATES ASSEMBLED; HIGH-TEMPERATURE HYDROTHERMALLY STABLE MESOPOROUS ALUMINOSILICATES; HYDROTHERMALLY STABLE ALUMINOSILICATE FOAMS; ORDERED HEXAGONAL STRUCTURE ÁìÓò£º»¯Ñ§ NO.22 ±êÌ⣺Temperature-Controlled Catalytic Growth of ZnS Nanostructures by the Evaporation of ZnS Nanopowders À´Ô´£º¡¶ÏȽø¹¦ÄܲÄÁÏ¡·2005Äê15¾íµÚ1ÆÚ£¬63-68Ò³ ×÷ÕߣºÖпÆÔº¹ÌÌåÎïÀíÑо¿Ëù Xiao-Sheng Fang£¨·½ÏþÉú£©, Chang-Hui Ye£¨Ò¶³¤»Ô£©, Li-De Zhang£¨ÕÅÁ¢µÂ£©, Yin-Hai Wang£¨ÍõÒøº££©, Yu-Cheng Wu£¨ÎâÓñ³Ì£© Research Fronts: TEMPERATURE-CONTROLLED CATALYTIC GROWTH; TEMPERATURE-CONTROLLED GROWTH; GROWTH PROCESS; TWINNING-MEDIATED GROWTH; AL2O3 NANOBELTS ÁìÓò£º²ÄÁÏ¿Æѧ NO.23 ±êÌ⣺Two Unprecedented 3-Connected Three-Dimensional Networks of Copper(I) Triazolates: In Situ Formation of Ligands by Cycloaddition of Nitriles and Ammonia À´Ô´£º¡¶µÂ¹úÓ¦Óû¯Ñ§¡·2004Äê43¾íµÚ2ÆÚ£¬206-209Ò³ ×÷ÕߣºÖÐɽ´óѧ»¯Ñ§Ó뻯ѧ¹¤³ÌѧԺ Jie-Peng Zhang£¨ÕŽÜÅô£©, Shao-Liang Zheng£¨Ö£ÉÜÁ¼£©, Xiao-Chun Huang£¨»ÆÏþ´º£©, Xiao-Ming Chen£¨³ÂСÃ÷£© Research Fronts£ºSOLVENT POLARITY-INDUCED SUPRAMOLECULAR ISOMERISM; SUPRAMOLECULAR ISOMERISM; COPPER(I) TRIAZOLATES; COPPER(I) 2-ETHYLIMIDAZOLATE; ZIGZAG CHAINS ÁìÓò£º»¯Ñ§ NO.24 ±êÌ⣺Two-step quantum direct communication protocol using the Einstein-Podolsky-Rosen pair block À´Ô´£º¡¶ÎïÀíÆÀÂÛA¡·2003Äê68¾íµÚ4ÆÚ£¬ÎÄÕ±àÂ룺042317 ×÷ÕߣºÇ廪´óѧÎïÀíϵ Á¿×ÓÐÅÏ¢Óë²âÁ¿ÖصãʵÑéÊÒ Fu-Guo Deng£¨µË¸»¹ú£©, Xiao-Shu Liu£¨ÁõÏþÊ Ç廪´óѧÎïÀíϵ Á¿×ÓÐÅÏ¢Óë²âÁ¿ÖصãʵÑéÊÒ¡¢Ç廪´óѧÔ×ÓÓë·Ö×ÓÄÉÃ׿ÆѧÖÐÐÄ¡¢ÖпÆÔºÀíÂÛÎïÀíÑо¿Ëù Gui-Lu Long£¨Áú¹ð³£© 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 ÁìÓò£ºÎïÀíѧ |
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