同轴传输线微放电的统计理论稳态建模及敏感区域计算  被引量：1

作　　者：林舒 夏宁 王洪广 李永东 刘纯亮 Lin Shu;Xia Ning;Wang Hong-Guang;Li Yong-Dong;Liu Chun-Liang(Key Laboratory for Physical Electronics and Devices of the Ministry of Education,School of Electronic and Information Engineering,Xi＇an Jiaotong University,Xi＇an 710049,China)

机构地区：[1]西安交通大学电信学院,电子物理与器件教育部重点实验室,西安710049

出　　处：《物理学报》2018年第22期393-402,共10页Acta Physica Sinica

基　　金：国家自然科学基金(批准号：U1537210); 中国博士后科学基金(批准号：2018M633509)资助的课题

摘　　要：为准确有效地预测微波器件的微放电阈值,提出了一种可以同时考虑同轴结构微放电过程中单边与双边碰撞的统计理论稳态模型.考虑到同轴结构中场分布的非均匀性以及二次电子的出射随机性,采用微扰法近似推导电子轨迹表达式,并基于电子出射速度与渡越时间之间的隐式关联性,构建用于计算同轴结构内、外导体处电子渡越时间概率分布的联合概率密度函数.通过电子出射相位分布的稳态假设,推导用于描述同轴结构中微放电倍增过程的稳态积分方程组,并提出一种通用的联立迭代求解方法.采用稳态模型分别计算银、铜、铝与阿洛丁等工程常用镀膜材料的同轴传输线微放电敏感区域,并分析了同轴传输线径比对微放电阈值的影响.与欧空局的微放电实验结果对比表明,稳态模型能够准确有效地计算同轴传输线的微放电阈值,同时发现平行平板与同轴结构微放电的敏感曲线之间存在显著差异.研究提供了一种精确有效的同轴传输线微放电阈值分析方法,并为实际工程中"免微放电"微波器件的设计与优化提供参考与依据.Multipactor breakdown is a detrimental electromagnetic phenomenon caused by resonant secondary electron emissions synchronizing with field oscillation, which frequently takes place in powerful microwave devices and accelerating structures. Regarded as the principal failure mode of space microwave systems, multipactor may cause the performance to degenerate or even hardware operation to deteriorate catastrophically, thus multipactor becomes a major limitation in promoting the further development of space communication technology. Meanwhile, higher power capacity and volume integration accordingly lead to continuously growing multipactor hazard. In order to prevent multipactor from occurring, the accurate predictive technique to determine multipactor susceptibility has become a key issue for the mechanical design and performance optimization of microwave devices in the ground stage. Compared with the existing approaches to investigating the multipactor, statistical theories are able to conduct multipactor threshold calculation and mechanism analysis, with the stochastic nature of secondary emission fully considered from the probabilistic perspective. Currently,stationary statistical theory of multipactor has been developed for efficient multipactor threshold analysis of the parallelplate geometry. However, it has not been further extended to the coaxial geometry which is commonly involved in radio frequency（RF） systems. For this reason, the stationary statistical modeling of the coaxial multipactor with all influencing factors considered is detailed in this paper. Due to the field nonuniformity and the secondary emission randomness,analytic equation of electron trajectories in the coaxial geometry is approximately derived by using the perturbation approach. Based on the implicit correlation between electron emission velocity and transit time, the joint probability density function is constructed for the calculation of the probability density distribution of electron transit time. Afterwards, a system of integra

关 键 词：微放电 统计理论 稳态模型 同轴传输线 

分 类 号：O461.2[理学—电子物理学]