Shengxue Zhang
Chinese Academy of Sciences
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Publication
Featured researches published by Shengxue Zhang.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2011
Shengxue Zhang; Yonglin Bai; Z. Cao; S. Chen; Mingjun Chen; Y. B. Chen; L.H. Chen; K. Q. Ding; H. H. He; J. Liu; X. X. Li; L. L. Ma; X.H. Ma; X. D. Sheng; B. Zhou; Y. Zhang; J.B. Zhao; M. Zha; G Q Xiao
A wide field of view Cherenkov/fluorescence telescope array is one of the main components of the Large High Altitude Air Shower Observatory project. To serve as Cherenkov and fluorescence detectors, a flexible and mobile design is adopted for easy reconfiguring of the telescope array. Two prototype telescopes have been constructed and successfully run at the site of the ARGO-YBJ experiment in Tibet. The features and performance of the telescopes are presented
Chinese Physics C | 2014
Shou-Bo He; C. C. Zhang; Wei-Ming Yue; R. G. Wang; Meng-Xin Xu; Zhi-Jun Wang; Shichun Huang; Yu-Lu Huang; Tiancai Jiang; Feng-Feng Wang; Shengxue Zhang; Yuan He; Sheng-Hu Zhang; Hongwei Zhao
A superconducting squeezed type half-wave resonator (HWR) of β=0.09 has been developed at the Institute of Modern Physics, Lanzhou. In this paper, a basic design is presented for the stiffening structure for the detuning effect caused by helium pressure and Lorentz force. The mechanical modal analysis has been investigated the with finite element method (FEM). Based on these considerations, a new stiffening structure is proposed for the HWR cavity. The computation results concerning the frequency shift show that the low beta HWR cavity with new stiffening structure has low frequency sensitivity coefficient df/dp and Lorentz force detuning coefficient KL, and stable mechanical properties.
Archive | 2018
Tiancai Jiang; Hao Guo; Sheng-Hu Zhang; Lubei Liu; Yuan He; Teng Tan; Wei-Ming Yue; Zhiming You; Pingran Xiong; C. G. Li; Shengxue Zhang
Superconducting multi-spoke cavities are well-known optional choice for acceleration of heavy ions in medium energy. This paper describes the RF design, mechanical design, and test results of the superconducting double-spoke cavity developed at IMP. After Buffered Chemical Polishing and High Pressure Rinsing, one cavity has gone through high gradient RF testing at 4.2 K in the Vertical Test Stand. We present measurements of the quality factor as a function of accelerating field and maximum field on the surface. Accelerating gradient of more than 15 MV/m is reached with peak electric field of 61 MV/m, and peak magnetic field of 118 mT.
Physical Review D | 2015
B. Bartoli; P. Bernardini; X. J. Bi; Z. Cao; S. Catalanotti; S. Chen; T. L. Chen; S. W. Cui; B. Z. Dai; A. D’Amone; Null Danzengluobu; I. De Mitri; B. D’Ettorre Piazzoli; T. Di Girolamo; G. Di Sciascio; C. F. Feng; Zhaoyang Feng; Z. Y. Feng; Q. b. Guo; Y. Q. Guo; H. H. He; Haibing Hu; Hongbo Hu; M. Iacovacci; R. Iuppa; H. Y. Jia; Null Labaciren; H. J. Li; C. Liu; J. Liu
Chinese Physics C | 2014
B. Bartoli; P. Bernardini; X. J. Bi; I. Bolognino; P. Branchini; A. Budano; A. K. Calabrese Melcarne; P. Camarri; Z. Cao; R. Cardarelli; S. Catalanotti; S. Chen; T. L. Chen; P. Creti; S. W. Cui; B. Z. Dai; A. D'Amone; Danzengluobu; I. De Mitri; B. D'Ettorre Piazzoli; T. Di Girolamo; G. Di Sciascio; C. F. Feng; Zhaoyang Feng; Z. Y. Feng; Q. B. Gou; Y. Q. Guo; H. H. He; Haibing Hu; Hongbo Hu
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2011
Q. An; Yonglin Bai; X.J. Bi; Zhen Cao; Zhe Cao; J. Chang; Gen Chen; L.H. Chen; Mingjun Chen; T. L. Chen; Y.T. Chen; S. W. Cui; B. Z. Dai; Danzengluobu; C. F. Feng; Bo Gao; Minghao Gu; X.J. Hao; Huihai He; H. Hu; J. Huang; W.P. Huang; H.Y. Jia; J. Liu; S. B. Liu; Q. Li; Changqiao Li; Haoqi Lu; Y.J. Mao; X.H. Ma
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2013
Q. An; Yonglin Bai; X. J. Bi; Z. Cao; J. Chang; Gen Chen; Mingjun Chen; Shaomin Chen; S. Chen; T. L. Chen; Xihui Chen; Y.T. Chen; S. W. Cui; B. Z. Dai; Qiang Du; Danzengluobu; C. F. Feng; Shaohui Feng; Bo Gao; S. Q. Gao; M. M. Ge; Minghao Gu; X.J. Hao; H. H. He; Chao Hou; H. Hu; X. B. Hu; J. Huang; W.P. Huang; H. Y. Jia
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 2015
Shichun Huang; Huan Jia; Haihua Niu; Yuan He; Sheng-Hu Zhang; C. Z. Yuan; Jing Wang; Shengxue Zhang; Wei Chang; Peng Zhang; Hongwei Zhao; Jiawen Xia
Nuclear Science and Techniques | 2016
Andong Wu; Sheng-Hu Zhang; Wei-Ming Yue; Tiancai Jiang; Yongming Li; Feng-Feng Wang; Shengxue Zhang; L. J. Wen; Ran Huang; Yuan He; Hongwei Zhao
Archive | 2012
Shou-Bo He; Yuan He; Wei-Ming Yue; Sheng-Hu Zhang; R. G. Wang; C. C. Zhang; Meng-Xin Xu; Feng-Feng Wang; Shichun Huang; Yuzhang Yang; Shengxue Zhang; Hongwei Zhao
