高能e/sup +/e/sup -/对撞机中辐射触发击穿现象

IEEE Transactions on Electrical Insulation Pub Date : 1993-08-01 DOI:10.1109/14.231524

W. Kalbreier, B. Goddard

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引用次数: 10

摘要

在超高真空的高压系统中，击穿现象的频率可以通过电磁波(激光和紫外线、同步加速器光、x射线、伽马射线)或带电粒子和离子的形式的辐射的存在而增加几个数量级。这两种类型的辐射在高能e/sup +/e/sup -/对撞机中都很丰富，在这种困难的环境中对特定辐射源的影响的研究受到许多限制。因此，主要的策略是通过吸收电磁辐射或捕获带电粒子来减少入射到关键器件上的辐射通量。然而，在欧洲核子研究中心大型正电子(LEP)对撞机的“椒盐卷饼”分离项目中，这一策略失败了。因此，为了更好地理解辐射引发的击穿现象，进行了许多实验。在其他一些e/sup +/e/sup -/对撞机上的观测也被报道。>

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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Radiation-triggered breakdown phenomena in high-energy e/sup +/e/sup -/ colliders

The frequency of breakdown phenomena in a HV system under ultrahigh vacuum, can be increased by orders of magnitude by the presence of radiation, either in the form of electromagnetic waves (laser and UV light, synchrotron light, X-rays, gamma rays) or charged particles and ions. Both types of radiation are abundant in high-energy e/sup +/e/sup -/ colliders, and studies of the effect of a particular radiation source in this difficult environment are subject to many limitations. Thus, the principal strategy is to reduce the radiation flux incident on critical devices by absorbing the electromagnetic radiation or by trapping the charged particles. However, in the case of the 'pretzel' separation project for CERN's large electron positron (LEP) collider, this strategy failed. As a result many experiments have been carried out in order to achieve a better understanding of radiation-triggered breakdown phenomena. Observations made in some other e/sup +/e/sup -/ colliders are also reported. >

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IEEE Transactions on Electrical Insulation

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