Space Charge and Future Light Sources

S. A. Antipov, V. Gubaidulin, I. Agapov, E. C. Cortes Garcia, A. Gamelin
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Abstract

It is a truth universally acknowledged, that space charge effects in ultrarelativistic electron storage rings are irrelevant due to the steep inverse dependence of their strength on the Lorentz factor. Yet, with the push towards the diffraction limit, the state-of-the-art light sources are approaching the point where their emittance becomes so small that the space charge force can no longer be ignored. In this paper, we demonstrate how space charge effects affect the injection dynamics, dynamical aperture, and collective beam stability on the example of 4th generation light sources PETRA IV and SOLEIL II.
空间充电和未来光源
由于空间电荷效应的强度与洛伦兹系数呈陡峭的反比关系,因此在超相对论电子储存环中的空间电荷效应是无关紧要的,这是一个公认的真理。然而,随着衍射极限的推进,最先进的光源正在接近这样一个点:它们的发射率变得如此之小,以至于空间电荷力再也无法被忽视。在本文中,我们以第四代光源 PETRAIV 和 SOLEIL II 为例,展示了空间电荷效应如何影响注入动力学、动态孔径和集束稳定性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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