Identification and characterization of high order incoherent space charge driven structure resonances in the CERN Proton Synchrotron

F. Asvesta, H. Bartosik, S. Gilardoni, A. Huschauer, S. Machida, Y. Papaphilippou, R. Wasef
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引用次数: 8

Abstract

Space charge is typically one of the performance limitations for the operation of high intensity and high brightness beams in circular accelerators. In the Proton Synchrotron (PS) at CERN, losses are observed for vertical tunes above $Q_y=6.25$, especially for beams with large space charge tune shift. The work presented here shows that this behaviour is associated to structure resonances excited by space charge due to the highly symmetric accelerator lattice of the PS, typical for first generation alternating gradient synchrotrons. Experimental studies demonstrate the dependency of the losses on the beam brightness and the harmonic of the resonance, and simulation studies reveal the incoherent nature of the resonance. Furthermore, the calculation of the Resonance Driving Terms (RDT) generated by the space charge potential shows that the operational working point of the PS is surrounded by multiple space charge driven incoherent resonances. Finally, measurements and simulations on both lattice driven and space charge driven resonances illustrate the different behaviour of the beam loss depending on the source of the resonance excitation and on the beam brightness.
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CERN质子同步加速器中高阶非相干空间电荷驱动结构共振的识别与表征
空间电荷是圆形加速器中高强度、高亮度光束运行的典型性能限制之一。在欧洲核子研究中心(CERN)的质子同步加速器(PS)中,在Q_y=6.25$以上的垂直调谐中观察到损耗,特别是对于具有大空间电荷调谐位移的光束。这里的工作表明,这种行为与由于PS的高度对称加速器晶格而引起的空间电荷激发的结构共振有关,这是第一代交替梯度同步加速器的典型特征。实验研究证明了损耗与光束亮度和谐振谐波的相关性,仿真研究揭示了谐振的非相干性。此外,对空间电荷势产生的共振驱动项(RDT)的计算表明,PS的工作点被多个空间电荷驱动的非相干共振所包围。最后,对晶格驱动和空间电荷驱动共振的测量和模拟说明了光束损耗的不同行为,这取决于共振激发源和光束亮度。
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