Ka波段二次谐波回旋速调管放大器的输出特性

梁显锋; 刘濮鲲

强激光与粒子束, 2005, 17 (1): 113, 网络出版: 2006-04-28

Ka波段二次谐波回旋速调管放大器的输出特性

Output characteristics of a Ka-band, second harmonic three-cavity gyroklystron amplifier

论文大纲

梁显锋 ^1,2刘濮鲲 ¹

作者单位

¹ 中国科学院,电子学研究所,北京,100080

² 中国科学院,研究生院,北京,100039

二次谐波回旋速调管放大器输出特性 PIC粒子模拟 Second harmonic Gyroklystron amplifier Output characteristic PIC simulation

摘要

根据谐波回旋速调管放大器的注-波互作用特点,对Ka波段二次谐波三腔回旋速调管放大器的输出腔进行了数值模拟和优化设计,获得了输出腔末端高频波绕射输出孔径和腔体绕射Q值的对应关系.通过PIC粒子模拟,分析了该放大器的频率响应特点等输出特性.结果表明,在35 GHz频率,磁场0.685 T,电子注电压70 kV,电流15 A,横纵速度比为1.45,输入功率1.6 kW时,放大器可以获得超过220 kW的峰值输出功率、约22%的效率和23 dB的增益,3 dB带宽可达到110 MHz.

Abstract

The optimal design of the output cavity of a Ka-band second harmonic three-cavity gyroklystron amplifier is finished based on beam-wave interaction characteristics of the amplifier in this paper. The diffraction Q variation with the size of the diffraction output aperture for the RF power at the end of the output cavity is calculated. By PIC simulations, the output characteristics of the amplifier such as the frequency response etc are analyzed. At 35.0 GHz, a peak output power of more than 220 kW with an electronic efficiency of about 23%, and a gain of 23 dB, and a 3 dB bandwidth of 110 MHz (0.3%) is obtained with a 70 kV, 15 A electron beam at a magnetic field of 0.685 T and a beam velocity ratio of 1.45.

参考文献

[1] 刘濮鲲,徐寿喜.回旋速调管放大器及其发展评述[J].电子信息学报,2003,25(5):683.
Liu P K,Xu S X.Review of gyroklystron amplifiers and its development. Journal of Electronics and Information Technology, 2003,25(5) :683.

[2] Felch K L, Danly B G, Jory H R, et al. Characteristics and applications of fast-wave gyrodevices[A]. Proceedings of IEEE[C]. 1999, 87(5) :752-781.

[3] Gachev I G, Antakov I I, Lygin V K, et al. A Ka-band second harmonic gyroklystron with permanent magnet [A]. Fifth International Workshop Strong Microwaves in Plasmas[C]. Russia, 2002.

[4] Nusinovich G S, Levush B, Dumbrajs O. Optimization of multistage harmonic gyrodevices[J]. Physics of Plasmas, 1996, 3 (8):3133-3144.

[5] Calame J P, Cheng J, Latham P E, et al. Amplification studies of a two-cavity second harmonics gyroklystron with a mixed-mode output cavity[J]. J Appl Phys, 1994,75 (9) :4721-4730.

[6] Lawson W G. Theoretical evaluation of nonlinear tapers for a high-power gyrotron[J]. IEEE Trans on Microwave Theory and Techniques,1990, 38(11) :1617-1622.

[7] Chu K R. Theory of electron cyclotron maser interaction in a cavity at the harmonic frequencies[J]. Phys Fluids, 1978, 21(12) :2354-2364.

[8] Ansoft corporation. HP 85180A High-Frequency Structure Simulator User's Reference, Release 3.0(ed. 1), 1994.

[9] Liang X F, Liu P K, Xu S X, et al. Preliminary design of a Ka-band second harmonic gyroklystron amplifier[J]. Int J Infrared and Millimeter Waves, 2003, 24 (9) :1431-1440.

梁显锋, 刘濮鲲. Ka波段二次谐波回旋速调管放大器的输出特性[J]. 强激光与粒子束, 2005, 17(1): 113. LIANG Xian-feng, LIU Pu-kun. Output characteristics of a Ka-band, second harmonic three-cavity gyroklystron amplifier[J]. High Power Laser and Particle Beams, 2005, 17(1): 113.

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