束形展平新技术

A. Bias, S. Hancock, M. Lindroos, F. Pedersen, S. Koscielniak
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引用次数: 2

摘要

描述了一种提高聚束系数(B/下标f/)的技术。在助推器型同步加速器中,减小横向空间电荷调谐是非常重要的。实现这一目标的一种方法是增加平均与峰值纵向电荷密度的比率。从本质上讲,这个想法是在聚束和加速之前,通过将高谐波空桶扫进粒子束来产生空心束。据报道,在CERN PS助推器上进行了单射频和双射频情况下的LONG1D模拟研究,成功地进行了束流实验。纵向中空束在双批传输期间也有利于接收环,其中一半PS必须在低能量下等待1.2秒进行第二次注入。采用15/sup / harmonic rf系统形成空桶。仿真结果表明,在单次谐波情况下,B/sub f/从0.28增加到0.38,在双次谐波情况下,B/sub f/从0.45增加到0.55 (100 MeV时的值)。在1 GeV和100 MeV双谐波加速下,对该技术进行了测试。
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New technique for bunch shape flattening
A technique for increasing the bunching factor (B/sub f/) is described. Typically in booster-type synchrotrons, it is important to reduce the transverse space-charge tune shift. One means to achieve this is to increase the ratio of average to peak longitudinal charge density. Essentially, the idea is to create hollow bunches by sweeping high-harmonic empty buckets into the particle beam prior to bunching and acceleration. Successful beam experiments are reported with supporting LONG1D simulation studies performed on the CERN PS Booster for both single and dual rf cases. The longitudinally hollow bunches also benefit the receiving ring during the double batch transfer where half of the PS has to wait 1.2 seconds at low energy for the second injection. A 15/sup th/ harmonic rf system was used to form the empty buckets. Simulations show that for the single harmonic case, B/sub f/ is increased from 0.28 to 0.38, and for the dual harmonic one, B/sub f/ is increased from 0.45 to 0.55 (values at 100 MeV). The flattening technique has been tested successfully with the first harmonic to 1 GeV and to 100 MeV for dual harmonic acceleration.
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