KEK-ATF中光束-气体散射对光束晕的评价

R. Yang, T. Naito, S. Bai, A. Aryshev, K. Kubo, T. Okugi, N. Terunuma, D. Zhou, A. Faus-Golfe, V. Kubytskyi, S. Liu, S. Wallon
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引用次数: 5

摘要

在圆形对撞机中,以及在阻尼环和同步辐射光源中,光束晕是限制性能的关键问题之一,并且可能导致组件损坏和激活。必须清楚地了解导致光晕形成的机制,并测试现有的理论模型。弹性束气散射可以驱动粒子产生较大的振荡幅度,是束晕的潜在来源。本文对这一过程在KEK的ATF下进行了数值估计和蒙特卡罗模拟。本文还描述了利用金刚石传感器探测器对ATF2束流线中的束流晕进行的实验测量,清楚地说明了束流-气体散射过程对横向晕分布的影响。
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Evaluation of Beam Halo from Beam-Gas Scattering at the KEK-ATF
In circular colliders, as well as in damping rings and synchrotron radiation light sources, beam halo is one of the critical issues limiting the performance as well as potentially causing component damage and activation. It is imperative to clearly understand the mechanisms that lead to halo formation and to test the available theoretical models. Elastic beam-gas scattering can drive particles to large oscillation amplitudes and be a potential source of beam halo. In this paper, numerical estimation and Monte Carlo simulations of this process at the ATF of KEK are presented. Experimental measurements of beam halo in the ATF2 beam line using a diamond sensor detector are also described, which clearly demonstrates the influence of the beam-gas scattering process on the transverse halo distribution.
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