强激光与粒子束, 2018, 30 (6): 063010, 网络出版: 2018-06-12
微放电试验中种子电子加载方法比较
Comparestudy of electron seeding in multipactor test
摘要
为改进微放电试验的有效性, 针对微放电试验中种子电子的加载方法进行了研究, 介绍了辐射源、紫外光源、电子枪三种加载方法, 并说明和比较了上述方法的优缺点和适用范围。接着重点介绍了两种辐射源加载种子电子的方法: β衰变和γ跃迁, 并对两种方法加载种子电子的特性进行了定量分析。所得结果表明, 基于β衰变的90Sr及同时进行β衰变和γ跃迁的137Cs均可产生能够穿透毫米量级铝质微波部件壁厚的不同数量的种子电子, 适合用于微放电试验中的种子电子加载。
Abstract
Aiming for improving the effectiveness of the experimental multipactor tests, three different methods of electron seedingbased on radioactive sources, ultra violet light sources and electron gun are investigated. Advantages and application range of these methods are introduced and compared. Then, two radioactive sources, β decay and γ transition, are particularly discussed, and their characteristics of electron seeding are quantitatively analyzed. The obtained result shows that both methods can be used to generate seeding electrons that can penetrate millimeter-level aluminum walls of microwave devices, suitable for electron seedings in high-power multipactor tests for microwave components.
王新波, 崔万照, 魏焕, 何鋆, 孙勤奋. 微放电试验中种子电子加载方法比较[J]. 强激光与粒子束, 2018, 30(6): 063010. Wang Xinbo, Cui Wanzhao, Wei Huan, He Yun, Sun Qinfen. Comparestudy of electron seeding in multipactor test[J]. High Power Laser and Particle Beams, 2018, 30(6): 063010.