140 GHz兆瓦级回旋管高斯模式输出窗设计

李志良; 冯进军; 刘本田; 张杨

doi:doi:10.11805/tkyda201704.0534

太赫兹科学与电子信息学报, 2017, 15 (4): 534, 网络出版: 2017-12-08

140 GHz兆瓦级回旋管高斯模式输出窗设计

Design of Gaussian mode outputwindows for 140 GHz MW gyrotron

论文大纲

李志良 ^*冯进军刘本田张杨

作者单位

中国电子科技集团公司第12研究所微波电真空器件国家级重点实验室, 北京 100015

回旋振荡管高斯模式输出窗化学气相沉积金刚石 gyrotron oscillator Gaussian mode output windows Chemical Vapour Deposition diamond

摘要

根据热核聚变用140 GHz回旋振荡管研制需要, 对高斯模式输出窗进行研究。以化学气相沉积金刚石作为输出窗片的材料, 通过理论分析, 优化设计出低反射、低吸收高斯模式输出窗片的尺寸, 获得窗片半径和厚度分别为46 mm和1.8 mm。通过理论分析各参数对高斯模式透射率的影响, 并利用FEKO软件进行计算验证, 获得高斯模式输出窗设计参数, 从而为热核聚变用回旋振荡管的研究打下技术基础。

Abstract

According to the requirements of 140 GHz gyrotron oscillator in thermonuclear fusion, the study for Gaussian mode output windows is conducted. Chemical Vapour Deposition(CVD) diamond is chosen as the output window material, the size of low reflective and absorption window is designed by theoretical analysis, a radius and thickness of the diamond window are 46 mm and 1.8 mm, respectively. In this paper, the influence on the transmission of Gaussian mode and else parameters are analyzed by using theoretical analysis and FEKO software; finally, the design parameters of Gaussian mode output window are obtained. This work has laid a technical foundation in the application of the gyrotron for thermonuclear fusion.

参考文献

[1] HEIDINGER R,DAMMERTZ G,MEIER A,et al. CVD diamond windows studied with low-and high-power millimeter waves［J］. IEEE Transactions on Plasma Science, 2002,30(3):800-807.

[2] BRANDON J R,COE S E,SUSSMANN R S,et al. Development of CVD diamond RF windows for ECRH［J］. Fusion Engineering and Design, 2001,53(1):553-559.

[3] KASUGAI A,SAKAMOTO K,TAKAHASHI K,et al. 1 MW and long pulse operation of Gaussian beam output gyrotron with CVD diamond window for fusion devices［J］. Fusion Engineering and Design, 2001,53(1):399-406.

[4] ALARIA M K,BERA A,SINHA A K. Design and development of RF window for high power gyrotron［C］// Proc. IEEE IVEC, Monterey,USA:［s.n.］, 2016:497-498.

[5] 曾旭,王峨锋,李莉莉,等. 3 mm回旋行波管微波等离子体化学气相沉积金刚石输出窗［J］. 强激光与粒子束, 2014, 26(11):113003-1-113003-5. (ZENG Xu,WANG E’feng,LI Lili,et al. Microwave plasma chemical vapor deposition diamond output window for 3 mm gyro-traveling wave tube［J］. High Power Laser and Particle Beams, 2014,26(11):113003-1-113003-5.)

[6] DENISOV G G,ALEXANDROV N L,BOGDASHOV A A,et al. Experiments on HE11 mode excitation by paraxial wave beams［C］// 21th Int. Conf. Infrared and Millimeter Waves. Berlin,Germany:［s.n.］, 1996.

[7] 罗勇,李宏福,徐勇,等. 低反射低吸收高平均功率回旋管输出窗的设计［J］. 强激光与粒子束, 2004,16(11): 1425-1428. (LUO Yong,LI Hongfu,XU Yong,et al. RF windows of low reflectivity and absorption for high average power gyroklystrons［J］. High Power Laser and Particle Beams, 2004,16(11):1425-1428.)

[8] 何晟,邓艳波,李儒礼. 高斯模式输出窗的热分析［J］. 真空电子技术, 2015(3):12-16. (HE Cheng,DENG Yanbo,LI Ruli. The thermal analysis of output HE11 mode windows［J］. Vacuum Electronics, 2015(3):12-16.)

[9] 陈辉,王丽,徐勇,等. Ka波段高功率回旋行波管输出窗的优化设计和功率容量的研究［J］. 真空科学与技术学报, 2015,35(4):474-479. (CHEN Hui,WANG Li,XU Yong,et al. Design optimization of output window for high power Ka-band gyrotraveling wave tube and its power capacity［J］. Chinese Journal of Vacuum Science and Technology, 2015,35(4):474-479.)

李志良, 冯进军, 刘本田, 张杨. 140 GHz兆瓦级回旋管高斯模式输出窗设计[J]. 太赫兹科学与电子信息学报, 2017, 15(4): 534. LI Zhiliang, FENG Jinjun, LIU Bentian, ZHANG Yang. Design of Gaussian mode outputwindows for 140 GHz MW gyrotron[J]. Journal of terahertz science and electronic information technology, 2017, 15(4): 534.

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