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低反轰多腔热阴极微波电子枪物理设计
引用本文:柏伟, 黎明, 杨兴繁, 等. 低反轰多腔热阴极微波电子枪物理设计[J]. 强激光与粒子束, 2009, 21(10).
作者姓名:柏伟  黎明  杨兴繁  沈旭明
作者单位:1.中国工程物理研究院 应用电子学研究所, 四川 绵阳 621 900
摘    要:为了开展基于自由电子激光的紧凑型太赫兹源技术研究,获得高品质(强流、低能散、低发射度)电子束,提出了一个低反轰双路微波馈入多腔热阴极微波电子枪的设计方案。用两路独立微波馈入激励微波电子枪,一路由首腔馈入激励首腔和实现阴极表面建场引出电子,另一路由后续腔馈入并通过腔间耦合激励各腔。两路微波互不耦合,通过移相器实现首腔和第2腔之间的相移连续可调。理论模拟结果表明:在一个射频周期内,热阴极微波电子枪的电子反轰功率约8 kW,平均反轰功率仅为1.2 W(重复频率25 Hz和脉宽6 μs)。

关 键 词:电子反轰   微波电子枪   热阴极   太赫兹技术
收稿时间:1900-01-01;

Physical design of multicell thermionic RF gun with low back bombardment
bai wei, li ming, yang xingfan, et al. Physical design of multicell thermionic RF gun with low back bombardment[J]. High Power Laser and Particle Beams, 2009, 21.
Authors:Bai Wei  Li Ming  Yang Xingfan  Shen Xuming
Affiliation:1. Institute of Applied Electronics,CAEP,P.O.Box 919-1014,Mianyang 621900,China
Abstract:In order to carry out studies on THz source based on FEL technology and obtain high quality electron beam(heavy current, small energy spread and low emittance), a design scheme of an RF gun with two independent microwave power feed-in ports is proposed. Two microwave feed-in ports will be used to drive the microwave gun. One is used to drive the first cavity and draw electrons from the cathode surface. The other is used to excite the following cavity. There is no electromagnetic coupling between the first cavity and the following cavities. Numerical simulation results show that the electron back bombardment of the thermionic-cathode microwave gun can greatly decrease, the back electron bombardment power within one RF period is no more than 8 kW, and the average back electron bombardment
Keywords:RF gun  thermionic-cathode  THz technology
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