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Paper detail

Longitudinal RF capture simulation and BPM signal estimation

In this paper, the theoretical aspects behind longitudinal RF capture are reviewed and the capture process is simulated via a program based on this theory. Four kinds of cases with different initial distribution and capture curve are considered, i.e. uniform distribution with adiabatic capture, uniform distribution with non-adiabatic capture, Gaussian distribution with adiabatic capture and Gaussian distribution with non-adiabatic capture. The simulation results are compared each other and discussed, and Gaussian distribution with adiabatic capture is demonstrated having a higher capture efficiency and leading to a shorter bunch length. In addition, the BPM induced signal is simulated with high input impendence, i.e. $1MΩ$, and low input impendence, i.e. $50Ω$, respectively. Finally, the BPM signal of Heavy Ion Medical Machine (HIMM) is estimated and compared with measured one, and a good agreement is achieved.

preprint2016arXivOpen access
Yong-Chun FengRui-shi MaoYu-Cong ChenYan YinXiao-Hu ZhangShuang RuanTong LiuYao-Yao YouXin-Cai KangTie-Cheng ZhaoZhi-Guo XuPeng LiYan-Yu WangYou-Jin Yuan
physics.acc-ph
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Yong-Chun FengRui-shi MaoYu-Cong ChenYan YinXiao-Hu ZhangShuang RuanTong LiuYao-Yao YouXin-Cai KangTie-Cheng ZhaoZhi-Guo XuPeng LiYan-Yu WangYou-Jin Yuan

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