1Petelin M I. One Century of Cyclotron Radiation [J]. IEEE Trans on Plasma Science, 1999, 27(2): 291302.
[2]
2Kartikeyan M V, Borie E, Drumm O, et al. Design of a 42 GHz 200 kW Gyrotron Operating at the Second Harmonic [J]. IEEE Trans.Microwave Theory and Techniques. 2004, 52(2): 686692.
[3]
3Kartikeyan M V, Borie E, Thumm M. Gyrotrons: High power microwave and millimeter wave technology [M]. Berlin: Springer-Verlag, 2003: 15.
[4]
4Jin Jianbo. Quasi-optical mode converter for a coaxial cavity gyrotron [D]. ChengDu: Southwest Jiaotong university, 2005.(金践波.同轴腔回旋管准光学模式变换器[D].成都:西南交通大学, 2005).
[5]
5Sabchevski S, Zhelyazkov I, Benova E, et al. Quasi-Optical Converters for High-Power Gyrotrons; a Brief Review of Physical Models,Numerical Methods and Computer codes [J]. Journal of Physics:Conference Series, 2006, 44: 102109.
[6]
6Denisov G G, Kuftin A N, Malygin V I, et al. 110 GHz gyrotron with built-in high-efficiency converter [J]. International Journal of Electronics,1992,72(5): 10791091.
[7]
7Wang Bin, Du Chaohai, Liu Pukun, et al. Study and design of a quasi-optical mode converter for W-band whispering-gallery mode gyrotron. [J]ACTA PHYSICA SINICA, (王斌,杜朝海,刘濮鲲,等.w波段边廊模回旋管准光模式转换器的研究与设计.物理学报),2010,59(4): 25132517.
[8]
8Neilson J.M. Optimal Synthesis of Quasi-optical Launchers for High-Power Gyrotron.[J] IEEE Trans.on Plasma Sci, 2006, 34(3): 635641.
[9]
9Goldenberg A L, Litvak A G. Recent Progress of high power millimeter wavelenth gyro-devices [J]. Physics of Plasmas, 1995, 2: 2562.
[10]
10Thumm M K, Kasparek W. Passive high-power microwave components [J]. IEEE Trans on Plasma Science, 2002, 30(3): 755786.
