Beam Stacking Experiment at a Fixed Field Alternating Gradient Accelerator

T. UesugiInstitute for Integrated Radiation and Nuclear Science, Kyoto University, Y. IshiInstitute for Integrated Radiation and Nuclear Science, Kyoto University, Y. KuriyamaInstitute for Integrated Radiation and Nuclear Science, Kyoto University, Y. MoriInstitute for Integrated Radiation and Nuclear Science, Kyoto University, C. JollySTFC ISIS Department, D. J. KelliherSTFC ISIS Department, J. -B. LagrangeSTFC ISIS Department, A. P. LetchfordSTFC ISIS Department, S. MachidaSTFC ISIS Department, D. W. Poshuma de BoerSTFC ISIS Department, C. T. RogersSTFC ISIS Department, E. YamakawaSTFC ISIS Department, M. Topp-MugglestoneJohn Adams Institute, University of Oxford
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Abstract

A key challenge in particle accelerators is to achieve high peak intensity. Space charge is particularly strong at lower energy such as during injection and typically limits achievable peak intensity. The beam stacking technique can overcome this limitation by accumulating a beam at high energy where space charge is weaker. In beam stacking, a bunch of particles is injected and accelerated to high energy. This bunch continues to circulate, while a second and subsequent bunches are accelerated to merge into the first. It also allows the user cycle and acceleration cycles to be separated which is often valuable. Beam stacking is not possible in a time varying magnetic field, but a fixed field machine such as an Fixed Field Alternating Gradient Accelerator (FFA) does not sweep the magnetic field. In this paper, we describe experimental demonstration of beam stacking of two beams at KURNS FFA in Kyoto University. The momentum spread and intensity of the beam was analysed by study of the Schottky signal, demonstrating stacking with only a slight increase of momentum spread of the combined beams. The intensity of the first beam was, however, significantly reduced. RF knock-out is the suspected source of the beam loss.
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固定场交变梯度加速器的光束叠加实验
粒子加速器的一个关键挑战是实现高峰值强度。空间电荷在较低能量(如注入期间)时特别强,通常会限制可实现的峰值强度。束流叠加技术可以通过在空间电荷较弱的高能量处聚集束流来克服这一限制。在光束叠加中,一束粒子被注入并加速到高能量。这束粒子继续循环,而第二束和随后的几束粒子则被加速并入第一束。在时变磁场中不可能进行束堆叠,但固定磁场机器(如固定场交变梯度加速器)不会扫描磁场。本文介绍了在京都大学 KURNS FFA 进行的双光束叠加实验。通过研究肖特基信号分析了光束的动量散布和强度,结果表明叠加时组合光束的动量散布仅略有增加。然而,第一束光束的强度明显降低。射频击穿被怀疑是光束损失的来源。
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