具有纵向阻抗的横向模式耦合不稳定性

IF 3.6 1区 物理与天体物理 Q1 NUCLEAR SCIENCE & TECHNOLOGY
Hai-Sheng Xu, Chun-Tao Lin, Na Wang, Jing-Ye Xu, Yuan Zhang
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引用次数: 0

摘要

横向模式耦合不稳定性(TMCI)是一种危险的横向单束不稳定性,可导致严重的粒子损失。TMCI的机理可以用横向短程唤醒场(即横向宽带阻抗)导致的横向相干振荡模式耦合来解释。最近对未来环形对撞机(如 FCC-ee)的研究表明,当纵向和横向阻抗都包括在内时,TMCI 的阈值会显著降低。我们对环形电子-正电子对撞机(CEPC)进行了计算,观察到了类似的现象。我们对纵向阻抗对 TMCI 门限的影响进行了系统研究。我们得出的结论是,纵向阻抗的虚部导致非相干同步加速器调谐减弱,是 TMCI 门限降低的主要原因。此外,纵向阻抗的实部也有助于提高 TMCI 门限。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Transverse mode-coupling instability with longitudinal impedance

Transverse mode-coupling instability with longitudinal impedance

Transverse mode-coupling instability (TMCI) is a dangerous transverse single-bunch instability that can lead to severe particle loss. The mechanism of TMCI can be explained by the coupling of transverse coherent oscillation modes owing to the transverse short-range wakefield (i.e., the transverse broadband impedance). Recent studies on future circular colliders, e.g., FCC-ee, showed that the threshold of TMCI decreased significantly when both longitudinal and transverse impedances were included. We performed computations for the circular electron–positron collider (CEPC) and observed a similar phenomenon. Systematic studies on the influence of longitudinal impedance on the TMCI threshold were conducted. We concluded that the imaginary part of the longitudinal impedance, which caused a reduction in the incoherent synchrotron tune, was the primary reason for the reduction in the TMCI threshold. Additionally, the real part of the longitudinal impedance assists in increasing the TMCI threshold.

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来源期刊
Nuclear Science and Techniques
Nuclear Science and Techniques 物理-核科学技术
CiteScore
5.10
自引率
39.30%
发文量
141
审稿时长
5 months
期刊介绍: Nuclear Science and Techniques (NST) reports scientific findings, technical advances and important results in the fields of nuclear science and techniques. The aim of this periodical is to stimulate cross-fertilization of knowledge among scientists and engineers working in the fields of nuclear research. Scope covers the following subjects: • Synchrotron radiation applications, beamline technology; • Accelerator, ray technology and applications; • Nuclear chemistry, radiochemistry, radiopharmaceuticals, nuclear medicine; • Nuclear electronics and instrumentation; • Nuclear physics and interdisciplinary research; • Nuclear energy science and engineering.
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