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材料二次电子产额对腔体双边二次电子倍增的影响
引用本文:董烨,刘庆想,庞健,周海京,董志伟. 材料二次电子产额对腔体双边二次电子倍增的影响[J]. 物理学报, 2018, 67(3): 37901-037901. DOI: 10.7498/aps.67.20172119
作者姓名:董烨  刘庆想  庞健  周海京  董志伟
作者单位:1. 西南交通大学物理科学与技术学院, 成都 610031;2. 北京应用物理与计算数学研究所, 北京 100094;3. 中国工程物理研究院流体物理研究所, 绵阳 621900
基金项目:国家自然科学基金(批准号:11475155,11305015)资助的课题.
摘    要:采用蒙特卡罗抽样与粒子模拟相结合的方法,数值研究了材料二次电子产额对腔体双边二次电子倍增瞬态演化及饱和特性的影响.研究发现:随着材料二次电子产额的增加,二次电子增长率以及稳态二次电子数目和振幅均呈现增加的趋势,放电电流起振时间逐步缩短,稳态电流幅值以及放电功率平均值和振幅值均呈现逐步增加并趋于饱和的规律,沉积功率波形延时以及脉宽呈现逐步增加并趋于饱和的趋势.粒子模拟给出了高/低二次电子产额情况下的电子相空间分布、电荷密度分布、平均碰撞能量、平均二次电子产额、二次电子数目和放电电流的细致物理图像.模拟结果表明:高二次电子产额材料,饱和时更倾向趋于单边二次电子倍增类型分布;低二次电子产额材料的二次电子倍增饱和特性由空间电荷场的"去群聚"效应和"反场"效应同时决定,而高二次电子产额材料的二次电子倍增饱和特性则主要是由发射面附近的强空间电荷场"反场"效应决定的.

关 键 词:双边二次电子倍增瞬态特性  材料二次电子产额  蒙特卡罗方法  粒子模拟方法
收稿时间:2017-09-25

Influence of secondary electron yield of material on two-sided multipactor discharge in cavity
Dong Ye,Liu Qing-Xiang,Pang Jian,Zhou Hai-Jing,Dong Zhi-Wei. Influence of secondary electron yield of material on two-sided multipactor discharge in cavity[J]. Acta Physica Sinica, 2018, 67(3): 37901-037901. DOI: 10.7498/aps.67.20172119
Authors:Dong Ye  Liu Qing-Xiang  Pang Jian  Zhou Hai-Jing  Dong Zhi-Wei
Affiliation:1. School of Physical Science and Technology, Southwest Jiaotong University, Chengdu 610031, China;2. Institute of Applied Physics and Computational Mathematics, Beijing 100094, China;3. Institute of Fluid Physics, China Academy of Engineering Physics, Mianyang 621900, China
Abstract:The influences of secondary electron yield (SEY) of material on the transient and saturation characteristics of two-sided multipactor discharge in cavity are numerically investigated by using particle-in-cell and Monte-Carlo methods. The numerical results indicate that as the SEY increases, the rate of electron number increases and the average value and magnitude of steady electron number also increase. The oscillation start-time of discharge current is shortened, and the steady value of discharge current increases and tends to be saturated. Both the average value and magnitude of steady discharge power increase and tend to be saturated. Both the time-delay and pulse width of deposited power waveform increase and also tend to be saturated. Under the circumstances of higher and lower value of SEY, the physical images of electron phase space, charge density, average impact energy, average SEY, electron number and discharge current are in detail shown in particle-in-cell simulation. The results can be concluded as follows. Under the circumstances of lower value of SEY, the saturation characteristics is determined by both “debunching” and “reverse field” of space charge effects. But under the circumstances of higher value of SEY, the multipactor mechanism tends to be one-sided mode in the steady stage which can be obviously determined by “reverse-field” of space charge effect.
Keywords:transient characteristics of two-sided multipactor discharge  secondary electron yield of material  Monte-Carlo method  particle-in-cell method
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