APS FEL项目中波动器的磁测量和调谐

I. Vasserman, R. Dejus, P. Den Hartog, M. Erdmann, E. Gluskin, E. Moog, E. Trakhtenberg
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引用次数: 3

摘要

为先进光子源(APS) FEL项目制备了两种插入器件磁性结构。磁性结构为标准APS波动体,长2.4 m,周期3.3 cm。在约9.3 mm的磁隙处完成了波动器的测量和调谐,其中K为3.1。采用特殊的测量和调谐技术,满足了第二场积分小于3.3 kG-cm/sup /的严格轨迹直线度要求。波动器的磁场强度必须很好地匹配;这就要求磁隙必须控制在10微米以上。适当的相位之间的波动是通过调整波动之间的漂移空间的长度来保证。所需的漂移空间长度受磁结构端场的强烈影响。给出了磁场的测量结果和漂移长度的计算结果。
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Magnetic measurements and tuning of undulators for the APS FEL project
Two insertion device magnetic structures have been prepared for the Advanced Photon Source (APS) FEL project. The magnetic structures are standard APS undulators, 2.4 m long with 3.3-cm period. Measurements and tuning of the undulators have been completed at a magnetic gap of about 9.3 mm, where K is 3.1. Special measurement and tuning techniques were used to satisfy the tight trajectory straightness requirement that the second field integral be less than 3.3 kG-cm/sup 2/. The magnetic field strengths of the undulators must be well matched; this leads to the requirement that the magnetic gap must be controlled to better than 10 microns. Proper phasing between the undulators is ensured by adjusting the length of the drift space between the undulators. The drift space length that is needed is strongly affected by the end fields of the magnetic structures. The results of measurements of the magnetic field and calculations of the drift length are provided.
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