FNAL助推器二次谐波射频腔

R. Madrak, C. Tan, R. Padilla, J. Reid, Kevin Duel, M. Slabaugh, I. Terechkine, A. Makarov, M. Kufer, W. Pellico, J. Dey, J. Kuharik, D. Sun, G. Romanov
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引用次数: 2

摘要

使用垂直偏置石榴石进行频率调谐的二次谐波射频腔目前正在建造中,用于费米实验室助推器。该腔将以两倍的基本射频频率工作,从~76 - 106 MHz,并且仅在注入,过渡或提取期间打开。它的主要目的是按照费米实验室质子改进计划(PIP)的要求减少光束损耗。经过三年的优化和研究,腔体设计已经完成,所有组成部件已经收到。我们讨论了空腔及其相关系统的设计方面,组件测试和空腔施工的状态。
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The FNAL Booster Second Harmonic RF Cavity
A second harmonic RF cavity which uses perpendicularly biased garnet for frequency tuning is currently being constructed for use in the Fermilab Booster. The cavity will operate at twice the fundamental RF frequency, from ~76 - 106 MHz, and will be turned on only during injection, and transition or extraction. Its main purpose is to reduce beam loss as required by Fermilab's Proton Improvement Plan (PIP). After three years of optimization and study, the cavity design has been finalized and all constituent parts have been received. We discuss the design aspects of the cavity and its associated systems, component testing, and status of the cavity construction.
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