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Based on the nonlinear self-consistent theory and the three-dimensional electromagnetic simulation software CST, the beam-wave interaction of gyrotron with irregular cross section is studied. Through importing high frequency fields which are the results of CST, the beam-wave interaction efficiency, coupling coefficient and starting current can be obtained. In addition, a 0.4 THz third harmonic TE33 mode gyrotron with a corrugated interaction cavity is presented according to this approach. The gyrotron with a 40.5 kV/1 A electron beam, magnetic field of 5.09 T, and pitch factor of 1.5 can produce radiation with an output power of 3.3 kW.
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Keywords:
- gyrotron /
- terahertz /
- high harmonic /
- corrugated interaction cavity
[1] Siegel P H 2002 IEEE Trans. Microwave Theory and Techniques 5 910
[2] Glyavin M Y, Luchinin A G, Golubiatnikov G Y 2008 Phys. Rev. Lett. 100 015101
[3] Agusu L, Idehara T, Mori H, Saito T, Ogawa I, Mitsudo S 2007 Int. J. Infrared Millim. Waves 28 315
[4] Bratman V L, Kalynov Y K, Manuilov V N 2009 Phys. Rev. Lett. 102 245101
[5] Bandurkin I V, Bratman V L, Savilov A V, Samsonov S V, Volkov A B 2009 Phys. Plasmas 16 070701
[6] Danly B G, Temkin R J 1986 Phys. Fluids 29 561
[7] Liu S G 1987 Theory for Relativistic Electronics (Beijing: Science Press) p253 (in Chinese) [刘盛纲 1987 相对论电子学 (北京:科学出版社) p253]
[8] Zhang K Q 2001 Theory of Microwave and Photoelectronics (Beijing: Electronic Industrial Press) p235 (in Chinese) [张克潜 2001 微波与光电子学中的电磁理论 (北京:电子工业出版社) p235]
[9] Hornstein M K, Bajaj V S, Griffin R G, Kreischer K E, Shapiro M A, Sirigiri J R, Temkin R J 2005 IEEE Trans. Electron Dev. 52 798
[10] Li H F, Du P Z, Yang S W, Xie Z L, Zhou X L, Wan H R, Huang Y 2000 Acta Phys. Sin. 49 312 (in Chinese) [李宏福, 杜品忠, 杨仕文, 谢仲怜, 周晓岚, 万洪蓉, 黄勇 2000 物理学报 49 312]
[11] Yuan X S, Yan Y, Liu S G 2011 Acta Phys. Sin. 60 014102 (in Chinese) [袁学松, 鄢扬, 刘盛纲 2011 物理学报 60 014102]
[12] Yuan X S, Yan Y, Liu S G 2009 Acta Electron. Sin. 37 335 (in Chinese) [袁学松, 鄢扬, 刘盛纲 2009 电子学报 37 335]
[13] Yuan X S, Lan Y, Ma C Y, Han Y, Yan Y 2010 Phys. Plasmas 18 103115
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[1] Siegel P H 2002 IEEE Trans. Microwave Theory and Techniques 5 910
[2] Glyavin M Y, Luchinin A G, Golubiatnikov G Y 2008 Phys. Rev. Lett. 100 015101
[3] Agusu L, Idehara T, Mori H, Saito T, Ogawa I, Mitsudo S 2007 Int. J. Infrared Millim. Waves 28 315
[4] Bratman V L, Kalynov Y K, Manuilov V N 2009 Phys. Rev. Lett. 102 245101
[5] Bandurkin I V, Bratman V L, Savilov A V, Samsonov S V, Volkov A B 2009 Phys. Plasmas 16 070701
[6] Danly B G, Temkin R J 1986 Phys. Fluids 29 561
[7] Liu S G 1987 Theory for Relativistic Electronics (Beijing: Science Press) p253 (in Chinese) [刘盛纲 1987 相对论电子学 (北京:科学出版社) p253]
[8] Zhang K Q 2001 Theory of Microwave and Photoelectronics (Beijing: Electronic Industrial Press) p235 (in Chinese) [张克潜 2001 微波与光电子学中的电磁理论 (北京:电子工业出版社) p235]
[9] Hornstein M K, Bajaj V S, Griffin R G, Kreischer K E, Shapiro M A, Sirigiri J R, Temkin R J 2005 IEEE Trans. Electron Dev. 52 798
[10] Li H F, Du P Z, Yang S W, Xie Z L, Zhou X L, Wan H R, Huang Y 2000 Acta Phys. Sin. 49 312 (in Chinese) [李宏福, 杜品忠, 杨仕文, 谢仲怜, 周晓岚, 万洪蓉, 黄勇 2000 物理学报 49 312]
[11] Yuan X S, Yan Y, Liu S G 2011 Acta Phys. Sin. 60 014102 (in Chinese) [袁学松, 鄢扬, 刘盛纲 2011 物理学报 60 014102]
[12] Yuan X S, Yan Y, Liu S G 2009 Acta Electron. Sin. 37 335 (in Chinese) [袁学松, 鄢扬, 刘盛纲 2009 电子学报 37 335]
[13] Yuan X S, Lan Y, Ma C Y, Han Y, Yan Y 2010 Phys. Plasmas 18 103115
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