G. Wang
Chinese Academy of Sciences
16 Papers
5 Citations
G. Wang is an academic researcher from Chinese Academy of Sciences. The author has contributed to research in topics: Beam (structure) & Storage ring. The author has an hindex of 4, co-authored 16 publications.
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Papers
The design of the Spectrometer Ring at the HIAF
Bobing Wu,Jian-Cheng Yang,Jun Xia,X. L. Yan,Xuanhou Hu,Lijun Mao,Lizhi Sheng,Jie Wu,D.Y. Yin,Wei-Ping Chai,G.D. Shen,W.W. Ge,G. Wang,Hai-Hui Zhao,S. Ruan,Xiu-Wen Ma,M. Wang,Sergey Litvinov,Weiqiang Wen,X.C. Chen,R.J. Chen,Meitang Tang,W. Wu,Cheng Luo,T. C. Zhao,C.F. Shi,Fu Xin,J. Liu,L. Z. Liang +28 more
TL;DR: The Spectrometer Ring (SRing) is an essential part of the High Intensity heavy-ion Accelerator Facility project (HIAF) in China as mentioned in this paper, which is designed as a multi-functional experimental storage ring, which will be able to operate in three ion optical operation modes.
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Strip-line kicker and fast pulser R&D for the HEPS on-axis injection system
TL;DR: In this paper, a prototype development of a 750 mm long strip-line kicker and a DSRD pulser was completed and the preliminary test results show they can meet the baseline requirement of the HEPS.
19
Impedance optimization and measurements of the injection stripline kicker
TL;DR: In this paper, the beam coupling impedance and heat load dissipation on the kicker due to the beam passage are studied numerically and impedance bench measurements are launched to identify the impedance of the kicker experimentally.
5
Beam loading effects and microwave instability in the booster ring of a high intensity heavy-ion accelerator facility
F. C. Cai,J.C. Yang,J.W. Xia,G.D. Shen,J. Liu,Lijun Mao,D.Y. Yin,Y. Cong,S. Ruan,G. Wang,L. P. Yao,Xihui Chen +11 more
TL;DR: In this article, a longitudinal particle tracking code (LPTCC) based on multiparticle tracking is developed to simulate the beam loading effects and the longitudinal beam instabilities in the booster ring (BRing) of the HIAF.
4
The design of PACS (Physics-oriented Accelerator Control System) and its implementation in a heavy ion accelerator facility
TL;DR: In this paper, a physics-oriented accelerator control system (PACS) is proposed, designed and implemented in the IMP to save the construction time, improve the commissioning efficiency, simplify the operation and reach higher beam intensity and better beam quality.
4