D. Hardy, J. Tang, R. Legg, M. Tiefenback, M. Crofford, G. Krafft
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引用次数: 1
摘要
在托马斯·杰斐逊国家加速器设施(杰斐逊实验室)的CEBAF(连续电子束加速器设施)加速器中,精确测量路径长度和路径长度随动量的变化(M/sub 56/)对于保持最小的束流能量传播至关重要。波束各回路(1256m)的相对路径长度必须等于1497mhz射频相位的1.5度以内。相对路径长度测量是通过测量来自一个腔体的射频信号的相对相位来实现的,该腔体在4.2 /spl μ l /s脉冲光束每通过一次时分别被激发。该方法将路径长度区分到小于0.5度RF (<280 /spl mu/m),并给出了路径长度误差的方向。基于VME的路径长度和M/sub 56/自动测量系统的开发有助于加快机器设置时间,并有可能用作自动控制的反馈参数。
Automated path length and M/sub 56/ measurements at Jefferson Lab
Accurate measurement of path length and path length changes versus momentum (M/sub 56/) are critical for maintaining minimum beam energy spread in the CEBAF (Continuous Electron Beam Accelerator Facility) accelerator at the Thomas Jefferson National Accelerator Facility (Jefferson Lab). The relative path length for each circuit of the beam (1256 m) must be equal within 1.5 degrees of 1497 MHz RF phase. A relative path length measurement is made by measuring the relative phases of RF signals from a cavity that is separately excited for each pass of a 4.2 /spl mu/s pulsed beam. This method distinguishes the path length to less than 0.5 degrees of RF (<280 /spl mu/m) and gives the direction of the path length error. The development of a VME based automated measurement system for path length and M/sub 56/ has contributed to faster machine setup time and has the potential for use as a feedback parameter for automated control.
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