[1] Kumar N, Singh U, Singh T P, et al. A review on the applications of high power, high frequency microwave source: Gyrotron[J]. Journal of Fusion Energ, 2011, 30(4): 257-276.

[2] Thumm M K, Kasparek W. Passive high-power microwave components[J]. IEEE Transactions on Plasma Science, 2002, 30(3): 755-786.

[3] Manfred K A Thumm. Recent developments on high-power gyrotrons—introduction to this special issue[J]. Journal of Infrared, Millimeter, and Terahertz Wave, 2011,32(3):241-252.

[4] Vlasov S N, Orlova I M. Quasioptical transformer which transforms the waves in a waveguide having a circular cross section into a highly directional wave beam [J], Radiophysics and Quantum Electronics.1974, 11(7): 115-119.

[5] Denisov 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): 1079–1091.

[6] Jin J B. Quasi-opticalmode converter for a coaxial cavity gyrotron[D]. Southwest jiaotong university, 2005.

[7] Chirkov A V, Denisov G G, Kulygin M L, et al . Use of Huygens' principle for analysis and synthesis of the fields in oversized waveguides[J], Radiophysics and Quantum Electronics, 2006, 49(5):344-353.

[8] Tomasz R, Jin J B, Bernard P, et al. 170 GHz, 2MW, coaxial cavity gyrotron: design and experimental verification of the RF output system[C].Proc. 6th International Vacuum Electronics Conference IVEC 2005, Noordwijk, Netherland, 2005:303-306.

[9] Minami R, Kariya T, Imal T, et al. Development of 28 GHz and 77 GHz, Mega-Watt gyrotrons for fusion devices[J]. Journal of Infrared, Millimeter and Terahertz Waves,2011, 32(3):295-310.

[14] Bogdashov A A, Denisov G G. Asymptotic theory of high-efficiency converters of higher-order waveguide modes into eigenwaves of open mirror lines[J]. Radiophysics and Quantum Electronics, 2004, 47(4): 283-296.

[15] Thumm M. High power mode conversion for linearly polarized HE11 hybrid mode output[J]. Int. J. Electron., 1982, 61(6):1135-1153.

[16] http://www.feko.info/