0254-3052
2013 Issue 1
Study of singlet-triplet mixing via semileptonic decays
JIANG Yue 1;2 WANG Guo-Li 1;2 WANG Tian-Hong 1 JU Wan-Li 1 1 Department of Physics; Harbin Institute of Technology; Harbin 150001; China 2 PITT PACC; Department of Physics & Astronomy; University of Pittsburgh; PA 15260; USA
JIANG Yue 1;2 WANG Guo-Li 1;2 WANG Tian-Hong 1 JU Wan-Li 1 1 Department of Physics; Harbin Institute of Technology; Harbin 150001; China 2 PITT PACC; Department of Physics & Astronomy; University of Pittsburgh; PA 15260; USA
..............page:21-26
Mass effect in polarization investigation at BEPC/BES and the B-factory
JIA Hanbing MA Bo-Qiang School of Physics and State Key Laboratory of Nuclear Physics and Technology; Peking University; Beijing 100871; China
JIA Hanbing MA Bo-Qiang School of Physics and State Key Laboratory of Nuclear Physics and Technology; Peking University; Beijing 100871; China
..............page:27-31
Pure annihilation type decays B0→Ds- (K2*)+ and Bs →a2 in the perturbative QCD approach
ZOU Zhi-Tian ZHOU Rui L Cai-Dian 1) Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China
ZOU Zhi-Tian ZHOU Rui L Cai-Dian 1) Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China
..............page:32-35
Particle-number conserving analysis for the 2-quasiparticle and high-K multi-quasiparticle states in doubly-odd 174,176Lu
LI Bing-Huan 1 ZHANG Zhen-Hua 2 LEI Yi-An 1 1 State Key Lab of Nuclear Physics and Technology; School of Physics; Peking University; Beijing 100871; China 2 State Key Laboratory of Theoretical Physics; Institute of Theoretical Physics; Chinese Academy of Sciences; Beijing 100190; China
LI Bing-Huan 1 ZHANG Zhen-Hua 2 LEI Yi-An 1 1 State Key Lab of Nuclear Physics and Technology; School of Physics; Peking University; Beijing 100871; China 2 State Key Laboratory of Theoretical Physics; Institute of Theoretical Physics; Chinese Academy of Sciences; Beijing 100190; China
..............page:36-43
A dumbbell model with five parameters describing nuclear fusion or fission
SUN Qian 1 SHANGGUAN Dan-Hua 2 BAO Jing-Dong 1 1 Department of Physics; Beijing Normal University; Beijing 100875; China 2 Institute of Applied Physics and Computational Mathematics; Beijing 100094; China
SUN Qian 1 SHANGGUAN Dan-Hua 2 BAO Jing-Dong 1 1 Department of Physics; Beijing Normal University; Beijing 100875; China 2 Institute of Applied Physics and Computational Mathematics; Beijing 100094; China
..............page:44-50
Electric and magnetic screenings of gluons in a model with a dimension-2 gluon condensate
XU Fu-Kun 1 HUANG Mei 1;2 1 Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China 2 Theoretical Physics Center for Science Facilities; Chinese Academy of Sciences; Beijing 100049; China
XU Fu-Kun 1 HUANG Mei 1;2 1 Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China 2 Theoretical Physics Center for Science Facilities; Chinese Academy of Sciences; Beijing 100049; China
..............page:51-57
Eccentricity and elliptic flow at a fixed centrality in Au+Au collisions at (sNN)1/2=200 GeV in an AMPT model
WANG Mei-Juan 1 CHEN Gang 1 WU Yuan-Fang 2 1 Physics Department; China University of Geoscience; Wuhan 430074; China 2 Institute of Particle Physics; Huazhong Normal University; Wuhan 430079; China
WANG Mei-Juan 1 CHEN Gang 1 WU Yuan-Fang 2 1 Physics Department; China University of Geoscience; Wuhan 430074; China 2 Institute of Particle Physics; Huazhong Normal University; Wuhan 430079; China
..............page:58-61
Energy dependence for directed and elliptic flow in intermediate-energy heavy ion collisions
YAN Ting-Zhi School of Energy Resources and Power Engineering; Northeast Dianli University; Jilin 132012; China
YAN Ting-Zhi School of Energy Resources and Power Engineering; Northeast Dianli University; Jilin 132012; China
..............page:62-65
Thermal neutron flux produced by EAS at various altitudes
Yu. V. Stenkin 1 V. V. Alekseenko 1 D. M. Gromushkin 2 LIU Ye 3 MA Xin-Hua 4 ZHAO Jing 4 1 Institute for Nuclear Research of Russian Academy of Sciences; Moscow 411051; Russia 2 Moscow Physical Engineering Institute; Moscow 115409; Russia 3 Hebei Normal University; Shijiazhuang 050024; China 4 Institute of High Energy Physics of Chinese Academy of Sciences; Beijing 100049; China
Yu. V. Stenkin 1 V. V. Alekseenko 1 D. M. Gromushkin 2 LIU Ye 3 MA Xin-Hua 4 ZHAO Jing 4 1 Institute for Nuclear Research of Russian Academy of Sciences; Moscow 411051; Russia 2 Moscow Physical Engineering Institute; Moscow 115409; Russia 3 Hebei Normal University; Shijiazhuang 050024; China 4 Institute of High Energy Physics of Chinese Academy of Sciences; Beijing 100049; China
..............page:66-69
He and H sequential implantation induced surface blistering and the exfoliation of Si covered with an oxide layer
WANG Zhuo 1;2 GAO Yu-Jie 1 LI Meng-Kai 1 ZHU Fei 1 ZHANG Da-Cheng 1 LIU Chang-Long 1;3 1 School of Science; Tianjin University; Tianjin 300072; China 2 School of Science; Tianjin University of Technology and Education; Tianjin 300222; China 3 Tianjin Key Laboratory of Low Dimension Materials Physics and Preparing Technology; Institute of Advanced Materials Physics Faculty of Science; Tianjin 300072; China
WANG Zhuo 1;2 GAO Yu-Jie 1 LI Meng-Kai 1 ZHU Fei 1 ZHANG Da-Cheng 1 LIU Chang-Long 1;3 1 School of Science; Tianjin University; Tianjin 300072; China 2 School of Science; Tianjin University of Technology and Education; Tianjin 300222; China 3 Tianjin Key Laboratory of Low Dimension Materials Physics and Preparing Technology; Institute of Advanced Materials Physics Faculty of Science; Tianjin 300072; China
..............page:70-75
..............page:1-2
Improved measurement of electron antineutrino disappearance at Daya Bay
F. P. An 1 Q. An 2 J. Z. Bai 1 A. B. Balantekin 3 H. R. Band 3 W. Beriguete 4 M. Bishai 4 S. Blyth 5 R. L. Brown 4 G. F. Cao 1 J. Cao 1 R. Carr 6 W. T. Chan 4 J. F. Chang 1 Y. Chang 5 C. Chasman 4 H. S. Chen 1 H. Y. Chen 7 S. J. Chen 8 S. M. Chen 9 X. C. Chen 10 X. H. Chen 1 X. S. Chen 1 Y. Chen 11 Y. X. Chen 12 J. J. Cherwinka 3 M. C. Chu 10 J. P. Cummings 13 Z. Y. Deng 1 Y. Y. Ding 1 M. V. Diwan 4 E. Draeger 14 X. F. Du 1 D. Dwyer 6 W. R. Edwards 15;16 S. R. Ely 17 S. D. Fang 8 J. Y. Fu 1 Z. W. Fu 8 L. Q. Ge 18 R. L. Gill 4 M. Gonchar 19 G. H. Gong 9 H. Gong 9 Y. A. Gornushkin 19 W. Q. Gu 20 M. Y. Guan 1 X. H. Guo 21 R. W. Hackenburg 4 R. L. Hahn 4 S. Hans 4 H. F. Hao 2 M. He 1 Q. He 22 K. M. Heeger 3 Y. K. Heng 1 P. Hinrichs 3 Y. K. Hor 23 Y. B. Hsiung 24 B. Z. Hu 7 T. Hu 1 H. X. Huang 25 H. Z. Huang 26 X. T. Huang 27 P. Huber 23 V. Issakov 4 Z. Isvan 4 D. E. Jaffe 4 S. Jetter 1 X. L. Ji 1 X. P. Ji 28 H. J. Jiang 18 J. B. Jiao 27 R. A. Johnson 29 L. Kang 30 S. H. Kettell 4 M. Kramer 15;16 K. K. Kwan 10 M. W. Kwok 10 T. Kwok31 C. Y. Lai 24 W. C. Lai 18 W. H. Lai 7 K. Lau 32 L. Lebanowski 32 J. Lee 15 R. T. Lei 30 R. Leitner 33 J. K. C. Leung 31 K. Y. Leung 31 C. A. Lewis 3 F. Li 1 G. S. Li 20 Q. J. Li 1 W. D. Li 1 X. B. Li 1 X. N. Li 1 X. Q. Li 28 Y. Li 30 Z. B. Li 34 H. Liang 2 C. J. Lin 15 G. L. Lin 7 S. K. Lin 32 Y. C. Lin 10;18;31 J. J. Ling 4 J. M. Link 23 L. Littenberg 4 B. R. Littlejohn 3;29 D. W. Liu 17 J. C. Liu 1 J. L. Liu 20 Y. B. Liu 1 C. Lu 22 H. Q. Lu 1 A. Luk 10 K. B. Luk 15;16 Q. M. Ma 1 X. B. Ma 12 X. Y. Ma 1 Y. Q. Ma 1 K. T. McDonald 22 M. C. McFarlane 3 R. D. McKeown 6;35 Y. Meng 23 D. Mohapatra 23 Y. Nakajima 15 J. Napolitano 36 D. Naumov 19 I. Nemchenok 19 H. Y. Ngai 31 W. K. Ngai 17 Y. B. Nie 25 Z. Ning 1 J. P. Ochoa-Ricoux 15 A. Olshevski 19 S. Patton 15 V. Pec 33 J. C. Peng 17 L. E. Piilonen 23 L. Pinsky 32 C. S. J. Pun 31 F. Z. Qi 1 M. Qi 8 X. Qian 6 N. Raper 36 J. Ren 25 R. Rosero 4 B. Roskovec 33 X. C. Ruan 25 B. B. Shao 9 K. Shih 10 H. Steiner 15;16 G. X. Sun 1 J. L. Sun 37 N. Tagg 4 Y. H. Tam 10 H. K. Tanaka 4 X. Tang 1 H. Themann 4 Y. Torun 14 S. Trentalange 26 O. Tsai 26 K. V. Tsang 15 R. H. M. Tsang 6 C. E. Tull 15 Y. C. Tung 24 B. Viren 4 V. Vorobel 33 C. H. Wang 5 L. S. Wang 1 L. Y. Wang 1 L. Z. Wang 12 M. Wang 27 N. Y. Wang 21 R. G. Wang 1 W. Wang 35 X. Wang 9 Y. F. Wang 1 Z. Wang 9 Z. Wang 1 Z. M. Wang 1 D. M. Webber 3 H. Y. Wei 9 Y. D. Wei 30 L. J. Wen 1 K. Whisnant 38 C. G. White 14 L. Whitehead 32 Y. Williamson 4 T. Wise 3 H. L. H. Wong 15;16 E. T. Worcester 4 F. F. Wu 6 Q. Wu 27 J. B. Xi 2 D. M. Xia 1 Z. Z. Xing 1 J. Xu 10 J. Xu 21 J. L. Xu 1Y. Xu 28 T. Xue 9 C. G. Yang 1 L. Yang 30 M. Ye 1 M. Yeh 4 Y. S. Yeh 7 B. L. Young 38 Z. Y. Yu 1 L. Zhan 1 C. Zhang 4 F. H. Zhang 1 J. W. Zhang 1 Q. M. Zhang 39 S. H. Zhang 1 Y. C. Zhang 2 Y. H. Zhang 1 Y. X. Zhang 37 Z. J. Zhang 30 Z. P. Zhang 2 Z. Y. Zhang 1 J. Zhao 1 Q. W. Zhao 1 Y. B. Zhao 1 L. Zheng 2 W. L. Zhong 1 L. Zhou 1 Z. Y. Zhou 25 H. L. Zhuang 1 J. H. Zou 1 1 Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049 2 University of Science and Technology of China; Hefei 230026 3 University of Wisconsin; Madison; WI 4 Brookhaven National Laboratory; Upton; NY 5 National United University; Miao-Li 6 California Institute of Technology; Pasadena; CA 7 Institute of Physics; National Chiao-Tung University; Hsinchu 8 Nanjing University; Nanjing 210093 9 Department of Engineering Physics; Tsinghua University; Beijing 100084 10 Chinese University of Hong Kong; Hong Kong 11 Shenzhen Univeristy; Shenzhen 518060 12 North China Electric Power University; Beijing 102206 13 Siena College; Loudonville; NY 14 Department of Physics; Illinois Institute of Technology; Chicago; IL 15 Lawrence Berkeley National Laboratory; Berkeley; CA 16 Department of Physics; University of California; Berkeley; CA 17 Department of Physics; University of Illinois at Urbana-Champaign; Urbana; IL 18 Chengdu University of Technology; Chengdu 610059 19 Joint Institute for Nuclear Research; Dubna; Moscow Region 20 Shanghai Jiao Tong University; Shanghai 200240 21 Beijing Normal University; Beijing 100875 22 Joseph Henry Laboratories; Princeton University; Princeton; NJ 23 Center for Neutrino Physics; Virginia Tech; Blacksburg; VA 24 Department of Physics; National Taiwan University; Taipei 25 China Institute of Atomic Energy; Beijing 102413 26 University of California; Los Angeles; CA 27 Shandong University; Jinan 250100 28 School of Physics; Nankai University; Tianjin 300371 29 University of Cincinnati; Cincinnati; OH 30 Dongguan University of Technology; Dongguan 523808 31 Department of Physics; The University of Hong Kong; Pokfulam; Hong Kong 32 Department of Physics; University of Houston; Houston; TX 33 Charles University; Faculty of Mathematics and Physics; Prague 34 Sun Yat-Sen University; Guangzhou 510275 35 College of William and Mary; Williamsburg; VA 36 Rensselaer Polytechnic Institute; Troy; NY 37 China Guangdong Nuclear Power Group; Shenzhen 518028 38 Iowa State University; Ames; IA 39 Xi’an Jiaotong University; Xi’an 710049
F. P. An 1 Q. An 2 J. Z. Bai 1 A. B. Balantekin 3 H. R. Band 3 W. Beriguete 4 M. Bishai 4 S. Blyth 5 R. L. Brown 4 G. F. Cao 1 J. Cao 1 R. Carr 6 W. T. Chan 4 J. F. Chang 1 Y. Chang 5 C. Chasman 4 H. S. Chen 1 H. Y. Chen 7 S. J. Chen 8 S. M. Chen 9 X. C. Chen 10 X. H. Chen 1 X. S. Chen 1 Y. Chen 11 Y. X. Chen 12 J. J. Cherwinka 3 M. C. Chu 10 J. P. Cummings 13 Z. Y. Deng 1 Y. Y. Ding 1 M. V. Diwan 4 E. Draeger 14 X. F. Du 1 D. Dwyer 6 W. R. Edwards 15;16 S. R. Ely 17 S. D. Fang 8 J. Y. Fu 1 Z. W. Fu 8 L. Q. Ge 18 R. L. Gill 4 M. Gonchar 19 G. H. Gong 9 H. Gong 9 Y. A. Gornushkin 19 W. Q. Gu 20 M. Y. Guan 1 X. H. Guo 21 R. W. Hackenburg 4 R. L. Hahn 4 S. Hans 4 H. F. Hao 2 M. He 1 Q. He 22 K. M. Heeger 3 Y. K. Heng 1 P. Hinrichs 3 Y. K. Hor 23 Y. B. Hsiung 24 B. Z. Hu 7 T. Hu 1 H. X. Huang 25 H. Z. Huang 26 X. T. Huang 27 P. Huber 23 V. Issakov 4 Z. Isvan 4 D. E. Jaffe 4 S. Jetter 1 X. L. Ji 1 X. P. Ji 28 H. J. Jiang 18 J. B. Jiao 27 R. A. Johnson 29 L. Kang 30 S. H. Kettell 4 M. Kramer 15;16 K. K. Kwan 10 M. W. Kwok 10 T. Kwok31 C. Y. Lai 24 W. C. Lai 18 W. H. Lai 7 K. Lau 32 L. Lebanowski 32 J. Lee 15 R. T. Lei 30 R. Leitner 33 J. K. C. Leung 31 K. Y. Leung 31 C. A. Lewis 3 F. Li 1 G. S. Li 20 Q. J. Li 1 W. D. Li 1 X. B. Li 1 X. N. Li 1 X. Q. Li 28 Y. Li 30 Z. B. Li 34 H. Liang 2 C. J. Lin 15 G. L. Lin 7 S. K. Lin 32 Y. C. Lin 10;18;31 J. J. Ling 4 J. M. Link 23 L. Littenberg 4 B. R. Littlejohn 3;29 D. W. Liu 17 J. C. Liu 1 J. L. Liu 20 Y. B. Liu 1 C. Lu 22 H. Q. Lu 1 A. Luk 10 K. B. Luk 15;16 Q. M. Ma 1 X. B. Ma 12 X. Y. Ma 1 Y. Q. Ma 1 K. T. McDonald 22 M. C. McFarlane 3 R. D. McKeown 6;35 Y. Meng 23 D. Mohapatra 23 Y. Nakajima 15 J. Napolitano 36 D. Naumov 19 I. Nemchenok 19 H. Y. Ngai 31 W. K. Ngai 17 Y. B. Nie 25 Z. Ning 1 J. P. Ochoa-Ricoux 15 A. Olshevski 19 S. Patton 15 V. Pec 33 J. C. Peng 17 L. E. Piilonen 23 L. Pinsky 32 C. S. J. Pun 31 F. Z. Qi 1 M. Qi 8 X. Qian 6 N. Raper 36 J. Ren 25 R. Rosero 4 B. Roskovec 33 X. C. Ruan 25 B. B. Shao 9 K. Shih 10 H. Steiner 15;16 G. X. Sun 1 J. L. Sun 37 N. Tagg 4 Y. H. Tam 10 H. K. Tanaka 4 X. Tang 1 H. Themann 4 Y. Torun 14 S. Trentalange 26 O. Tsai 26 K. V. Tsang 15 R. H. M. Tsang 6 C. E. Tull 15 Y. C. Tung 24 B. Viren 4 V. Vorobel 33 C. H. Wang 5 L. S. Wang 1 L. Y. Wang 1 L. Z. Wang 12 M. Wang 27 N. Y. Wang 21 R. G. Wang 1 W. Wang 35 X. Wang 9 Y. F. Wang 1 Z. Wang 9 Z. Wang 1 Z. M. Wang 1 D. M. Webber 3 H. Y. Wei 9 Y. D. Wei 30 L. J. Wen 1 K. Whisnant 38 C. G. White 14 L. Whitehead 32 Y. Williamson 4 T. Wise 3 H. L. H. Wong 15;16 E. T. Worcester 4 F. F. Wu 6 Q. Wu 27 J. B. Xi 2 D. M. Xia 1 Z. Z. Xing 1 J. Xu 10 J. Xu 21 J. L. Xu 1Y. Xu 28 T. Xue 9 C. G. Yang 1 L. Yang 30 M. Ye 1 M. Yeh 4 Y. S. Yeh 7 B. L. Young 38 Z. Y. Yu 1 L. Zhan 1 C. Zhang 4 F. H. Zhang 1 J. W. Zhang 1 Q. M. Zhang 39 S. H. Zhang 1 Y. C. Zhang 2 Y. H. Zhang 1 Y. X. Zhang 37 Z. J. Zhang 30 Z. P. Zhang 2 Z. Y. Zhang 1 J. Zhao 1 Q. W. Zhao 1 Y. B. Zhao 1 L. Zheng 2 W. L. Zhong 1 L. Zhou 1 Z. Y. Zhou 25 H. L. Zhuang 1 J. H. Zou 1 1 Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049 2 University of Science and Technology of China; Hefei 230026 3 University of Wisconsin; Madison; WI 4 Brookhaven National Laboratory; Upton; NY 5 National United University; Miao-Li 6 California Institute of Technology; Pasadena; CA 7 Institute of Physics; National Chiao-Tung University; Hsinchu 8 Nanjing University; Nanjing 210093 9 Department of Engineering Physics; Tsinghua University; Beijing 100084 10 Chinese University of Hong Kong; Hong Kong 11 Shenzhen Univeristy; Shenzhen 518060 12 North China Electric Power University; Beijing 102206 13 Siena College; Loudonville; NY 14 Department of Physics; Illinois Institute of Technology; Chicago; IL 15 Lawrence Berkeley National Laboratory; Berkeley; CA 16 Department of Physics; University of California; Berkeley; CA 17 Department of Physics; University of Illinois at Urbana-Champaign; Urbana; IL 18 Chengdu University of Technology; Chengdu 610059 19 Joint Institute for Nuclear Research; Dubna; Moscow Region 20 Shanghai Jiao Tong University; Shanghai 200240 21 Beijing Normal University; Beijing 100875 22 Joseph Henry Laboratories; Princeton University; Princeton; NJ 23 Center for Neutrino Physics; Virginia Tech; Blacksburg; VA 24 Department of Physics; National Taiwan University; Taipei 25 China Institute of Atomic Energy; Beijing 102413 26 University of California; Los Angeles; CA 27 Shandong University; Jinan 250100 28 School of Physics; Nankai University; Tianjin 300371 29 University of Cincinnati; Cincinnati; OH 30 Dongguan University of Technology; Dongguan 523808 31 Department of Physics; The University of Hong Kong; Pokfulam; Hong Kong 32 Department of Physics; University of Houston; Houston; TX 33 Charles University; Faculty of Mathematics and Physics; Prague 34 Sun Yat-Sen University; Guangzhou 510275 35 College of William and Mary; Williamsburg; VA 36 Rensselaer Polytechnic Institute; Troy; NY 37 China Guangdong Nuclear Power Group; Shenzhen 518028 38 Iowa State University; Ames; IA 39 Xi’an Jiaotong University; Xi’an 710049
..............page:1-20
A sub-millimeter spatial resolution achieved by a large sized glass RPC
LI Qi-Te YE Yan-Lin 1) JI Wei WEN Chao LIU Hong-Tao GE Yu-Cheng School of Physics and State Key Laboratory of Nuclear Physics and Technology; Peking University; Beijing 100871; China
LI Qi-Te YE Yan-Lin 1) JI Wei WEN Chao LIU Hong-Tao GE Yu-Cheng School of Physics and State Key Laboratory of Nuclear Physics and Technology; Peking University; Beijing 100871; China
..............page:76-79
Method for improving the time resolution of a TOF system
LI Shao-Li 1;2;3 HENG Yue-Kun 1;2 ZHAO Tian-Chi 4 FU Zai-Wei 5 LIU Shu-Lin 2 QIAN Sen 2 LIU Shu-Dong 2 CHEN Xiao-Hui 1;2;3 JIA Ru 6 HUANG Guo-Rui 7 LEI Xiang-Cui 1;2;3 1 State Key Laboratory of Particle Detection and Electronics; Beijing 100049; China 2 Institute of High Energy Physics; Chinese Academy of Science; Beijing 100049; China 3 Graduate University of Chinese Academy of Science; Beijing 100049; China 4 Department of Physics; University of Washington; Seattle; WA 98195-1560; USA 5 Department of Physics; Nanjing University; Nanjing 210093; China 6 Department of Science and Technology; Central China Normal University; Wuhan 430079; China 7 Department of Science and Technology; Guangxi University; Nanning 530004; China
LI Shao-Li 1;2;3 HENG Yue-Kun 1;2 ZHAO Tian-Chi 4 FU Zai-Wei 5 LIU Shu-Lin 2 QIAN Sen 2 LIU Shu-Dong 2 CHEN Xiao-Hui 1;2;3 JIA Ru 6 HUANG Guo-Rui 7 LEI Xiang-Cui 1;2;3 1 State Key Laboratory of Particle Detection and Electronics; Beijing 100049; China 2 Institute of High Energy Physics; Chinese Academy of Science; Beijing 100049; China 3 Graduate University of Chinese Academy of Science; Beijing 100049; China 4 Department of Physics; University of Washington; Seattle; WA 98195-1560; USA 5 Department of Physics; Nanjing University; Nanjing 210093; China 6 Department of Science and Technology; Central China Normal University; Wuhan 430079; China 7 Department of Science and Technology; Guangxi University; Nanning 530004; China
..............page:80-85
Mixing MC events in a reactor neutrino experiment
ZHANG Yi-Chun 1 CHEN Xiao-Su 2 HE Miao 2 HUANG Xing-Tao 3 WANG Meng 3 LI Wei-Dong 2 ZHANG Zi-Ping 1 1 University of Science and Technology of China; Hefei 230022; China 2 Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China 3 Shandong University; Jinan 250100; China
ZHANG Yi-Chun 1 CHEN Xiao-Su 2 HE Miao 2 HUANG Xing-Tao 3 WANG Meng 3 LI Wei-Dong 2 ZHANG Zi-Ping 1 1 University of Science and Technology of China; Hefei 230022; China 2 Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China 3 Shandong University; Jinan 250100; China
..............page:86-90
Development of front-end readout electronics for silicon strip detectors
QIAN Yi 1) SU Hong KONG Jie DONG Cheng-Fu MA Xiao-Li LI Xiao-Gang Institute of Modern Physics; Chinese Academy of Sciences; Lanzhou 730000; China
QIAN Yi 1) SU Hong KONG Jie DONG Cheng-Fu MA Xiao-Li LI Xiao-Gang Institute of Modern Physics; Chinese Academy of Sciences; Lanzhou 730000; China
..............page:91-94
A digital transmission system for high intensity pulsed radial detection
CHENG Xiao-Lei 1 OUYANG Xiao-Ping 1;2 LIU Fang 1 1 School of Nuclear Science and Engineering; North China Electric Power University; Beijing 102206; China 2 Northwest Institute of Nuclear Technology; Xi’an 710024; China
CHENG Xiao-Lei 1 OUYANG Xiao-Ping 1;2 LIU Fang 1 1 School of Nuclear Science and Engineering; North China Electric Power University; Beijing 102206; China 2 Northwest Institute of Nuclear Technology; Xi’an 710024; China
..............page:95-99
Statistical distribution based detector response function of a Si(PIN) detector for K_α and K_β X-ray
LI Zhe 2 TUO Xian-Guo 1;3 YANG Jian-Bo 2 LIU Ming-Zhe 1 CHENG Yi 2 WANG Lei 2 1 State Key Laboratory of Geoharzard Prevention and Geoenvironment Protection; Chengdu University of Technology; Chengdu 610059; China 2 Provincial Key Laboratory of Applied Nuclear Techniques in Geosciences; Chengdu University of Technology; Chengdu 610059; China 3 Southwest University of Science and Technology; Mianyang 621010; China
LI Zhe 2 TUO Xian-Guo 1;3 YANG Jian-Bo 2 LIU Ming-Zhe 1 CHENG Yi 2 WANG Lei 2 1 State Key Laboratory of Geoharzard Prevention and Geoenvironment Protection; Chengdu University of Technology; Chengdu 610059; China 2 Provincial Key Laboratory of Applied Nuclear Techniques in Geosciences; Chengdu University of Technology; Chengdu 610059; China 3 Southwest University of Science and Technology; Mianyang 621010; China
..............page:144-148
Lattice optimization for the HLS-Ⅱ storage ring
BAI Zheng-He WANG Lin JIA Qi-Ka LI Wei-Min National Synchrotron Radiation Laboratory; University of Science and Technology of China; Hefei 230029; China
BAI Zheng-He WANG Lin JIA Qi-Ka LI Wei-Min National Synchrotron Radiation Laboratory; University of Science and Technology of China; Hefei 230029; China
..............page:100-106
Design and cold test of a rectangular cavity beam position monitor
SU Jia-Hang 1;2 DU Ying-Chao 1;2 HUA Jian-Fei 1;2 ZHENG Shu-Xin 1;2 QIU Jia-Qi 1;2 YANG Jin 1;2 HUANG Wen-Hui 1;2 CHEN Huai-Bi 1;2 TANG Chuan-Xiang 1;21 Department of Engineering Physics; Tsinghua University; Beijing 100084; China 2 Key Laboratory of Particle & Radiation Imaging ; Ministry of Education; Beijing 100084; China
SU Jia-Hang 1;2 DU Ying-Chao 1;2 HUA Jian-Fei 1;2 ZHENG Shu-Xin 1;2 QIU Jia-Qi 1;2 YANG Jin 1;2 HUANG Wen-Hui 1;2 CHEN Huai-Bi 1;2 TANG Chuan-Xiang 1;21 Department of Engineering Physics; Tsinghua University; Beijing 100084; China 2 Key Laboratory of Particle & Radiation Imaging ; Ministry of Education; Beijing 100084; China
..............page:107-112
A tuning method for nonuniform traveling-wave accelerating structures
GONG Cun-Kui 1;2;3 ZHENG Shu-Xin 1;2 SHAO Jia-Hang 1;2 JIA Xiao-Yu 1;2 CHEN Huai-Bi 1;2 1 Key Laboratory of Particle & Radiation Imaging ; Ministry of Education; Beijing 100084; China 2 Department of Engineering Physics; Tsinghua University; Beijing 100084; China 3 College of Nuclear Science and Technology; Harbin Engineering University; Harbin 150001; China
GONG Cun-Kui 1;2;3 ZHENG Shu-Xin 1;2 SHAO Jia-Hang 1;2 JIA Xiao-Yu 1;2 CHEN Huai-Bi 1;2 1 Key Laboratory of Particle & Radiation Imaging ; Ministry of Education; Beijing 100084; China 2 Department of Engineering Physics; Tsinghua University; Beijing 100084; China 3 College of Nuclear Science and Technology; Harbin Engineering University; Harbin 150001; China
..............page:113-116
Research on the detuning system of a cooling electron beam for the dielectronic recombination experiment at CSRm
MENG Ling-Jie 1;2 MA Xin-Wen 1 V. V. Parkhomchuk 3 YANG Xiao-Dong 1 V. B. Reva 3 LI Jie 1 MAO Li-Jun 1 MA Xiao-Ming 1 YAN Tai-Lai 1 XIA Jia-Wen 1 YUAN You-Jin 1 XU Hu-Shan 1 YANG Jian-Cheng 1 XIAO Guo-Qing 1 1 Institute of Modern Physics; Chinese Academy of Sciences; Lanzhou 730000; China 2 Graduate University of Chinese Academy of Sciences; Beijing 100049; China 3 Budker Institute of Nuclear Physics; Laverentyeva 11; 630090 Novosibirsk; Russia
MENG Ling-Jie 1;2 MA Xin-Wen 1 V. V. Parkhomchuk 3 YANG Xiao-Dong 1 V. B. Reva 3 LI Jie 1 MAO Li-Jun 1 MA Xiao-Ming 1 YAN Tai-Lai 1 XIA Jia-Wen 1 YUAN You-Jin 1 XU Hu-Shan 1 YANG Jian-Cheng 1 XIAO Guo-Qing 1 1 Institute of Modern Physics; Chinese Academy of Sciences; Lanzhou 730000; China 2 Graduate University of Chinese Academy of Sciences; Beijing 100049; China 3 Budker Institute of Nuclear Physics; Laverentyeva 11; 630090 Novosibirsk; Russia
..............page:117-124
An ADS 650 MHz medium beta cavity study and design
LIU Zhen-Chao GAO Jie LI Zhong-Quan ZHAI Ji-Yuan ZHAO Tong-Xian LI Da-Zhang LIU Yi-Lin SUN Yi Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China
LIU Zhen-Chao GAO Jie LI Zhong-Quan ZHAI Ji-Yuan ZHAO Tong-Xian LI Da-Zhang LIU Yi-Lin SUN Yi Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China
..............page:125-128
Measurement of the polarization for soft X-ray magnetic circular dichroism at the BSRF beamline 4B7B
GUO Zhi-Ying 1 XI Shi-Bo 1 ZHU Jing-Tao 2 ZHAO Yi-Dong 1 ZHENG Lei 1 HONG Cai-Hao 1 TANG Kun 1 YANG Dong-Liang 1 CUI Ming-Qi 1 1 Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China 2 Institute of Precision Optical Engineering; Physics Department; Tongji University; Shanghai 200092; China
GUO Zhi-Ying 1 XI Shi-Bo 1 ZHU Jing-Tao 2 ZHAO Yi-Dong 1 ZHENG Lei 1 HONG Cai-Hao 1 TANG Kun 1 YANG Dong-Liang 1 CUI Ming-Qi 1 1 Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China 2 Institute of Precision Optical Engineering; Physics Department; Tongji University; Shanghai 200092; China
..............page:129-132
Direct demodulation method for heavy atom position determination in protein crystallography
ZHOU Liang LIU Zhong-Chuan LIU Peng DONG Yu-Hui 1) Beijing Synchrotron Radiation Facility; Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China
ZHOU Liang LIU Zhong-Chuan LIU Peng DONG Yu-Hui 1) Beijing Synchrotron Radiation Facility; Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China
..............page:133-137
Attenuation correction for dedicated breast PET using only emission data based on consistency conditions
WANG Lu 1;2 CHAI Pei 1 WU Li-Wei 1;2 YUN Ming-Kai 1 ZHOU Xiao-Lin 1;2 LIU Shuang-Quan 3 ZHANG Yu-Bao 3 SHAN Bao-Ci 1 WEI Long 1;3 1 Key Laboratory of Nuclear Analysis Techniques; Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China 2 Graduate University of Chinese Academy of Sciences; Beijing 100049; China 3 Beijing Engineering Research Center of Radiographic Techniques and Equipment; Beijing 100049; China
WANG Lu 1;2 CHAI Pei 1 WU Li-Wei 1;2 YUN Ming-Kai 1 ZHOU Xiao-Lin 1;2 LIU Shuang-Quan 3 ZHANG Yu-Bao 3 SHAN Bao-Ci 1 WEI Long 1;3 1 Key Laboratory of Nuclear Analysis Techniques; Institute of High Energy Physics; Chinese Academy of Sciences; Beijing 100049; China 2 Graduate University of Chinese Academy of Sciences; Beijing 100049; China 3 Beijing Engineering Research Center of Radiographic Techniques and Equipment; Beijing 100049; China
..............page:138-143