[1] Benford J, Swegle J, Schamiloglu E. High power microwaves[M]. 2nd ed. Boca Raton: Taylor and Francis, 2007.

[2] Benford J, Dickinson R. Space propulsion and power beaming using millimeter systems[C]//Proc of SPIE. 1995, 2557: 179-184.

[3] 周传明, 刘国治, 刘永贵, 等. 高功率微波源[M]. 北京: 原子能出版社, 2007. (Zhou Chuanming, Liu Guozhi, Liu Yonggui, et al. High power microwave sources. Beijing: Atomic Energy Press, 2007)

[4] Gurevich A V. Ionization of the lower ionosphere under the effect of strong radio pulses[J]. Geomagn Aeronom, 1979, 19: 428-432.

[5] Gurevich A V. An ionized layer in a gas (in the atmosphere)[J]. Sov Phys Usp, 1980, 23: 862.

[6] Yee J H, Alvarez R A, Mayhall D J, et al. Theory of intense electromagnetic pulse propagation through the atmosphere[J]. Phys Fluids, 1986, 29: 1238-1244.

[7] Kuo S P, Zhang Y S. A theoretical model for intense microwave pulse propagation in an air breakdown environment[J]. Phys Fluids B, 1991, 3(10): 2906-2912.

[8] Balakin V N, Stupitsky E L, Shapranov A V. Propagation of powerful UHF pulses in the atmosphere[J]. Geomagn Aeron, 2003, 43(5): 673-682.

[9] Mayhall D J, Yee J H, Alvarez R A, et al. Two dimensional electron fluid computer calculations of nanosecond pulse, low pressure microwave air breakdown in a rectangular waveguide and their verification by experimental measurement[M]//Laser Interaction and Related Plasma Phenomena. New York: Plenum Press, 1988: 321-137.

[10] Yee J H, Mayhall D J, Sieger G E. Modeling the interaction of intense electromagnetic pulses with gaseous media[J]. IEEE Trans on Electro-Magnetic Compatibility, 1992, 34(3): 189.

[11] Kim J, Kuo S P, Kossey P. Modeling and numerical simulation of microwave pulse propagation in air breakdown environment[C]//High Power Microwaves(HPM). 1995: 21-32.

[12] Stupitsky E L. Influence of nonlinear effects on propagation of two successive microwave emission pulses[J]. Geomagn Aeron, 2008, 48(1): 111-116.

[13] 刘静月, 方进勇, 宋志敏, 等. 短脉冲高功率微波大气击穿研究[J]. 强激光与粒子束, 2000, 12(4): 497-500. (Liu Jingyue, Fang Jinyong, Song Zhimin, et a1. Research on the short pulse high power microwave air breakdown in waveguide and free space. High Power Laser and Particle Beams, 2000. 12(4): 497-500)

[14] 江少恩. 高功率微波大气击穿的理论分析与计算[J]. 量子电子学, 1996, 13(3): 278-285. (Jiang Shaoen. Theoretical analysis and calculation of air breakdown due to high power microwave. Quantum Electronics, 1996, 13(3): 278-285)

[15] 段耀勇, 陈雨生. 高功率微波脉冲大气击穿及其对能量的影响[J]. 微波学报, 2000, 16(3): 260-264. (Duan Yaoyong, Chen Yusheng. Air breakdown of high power microwave pulse and its effect on transmitted energy. Journal of Microwaves, 2000, 16(3): 260-264)

[16] 陈雅深, 董志伟, 赵强, 等. 高功率微波大气传输电离过程的物理研究[J]. 强激光与粒子束, 2006, 18(1): 119-123. (Chen Yashen, Dong Zhiwei, Zhao Qiang, et al. Physical research on ionization of high power microwave propagating in atmosphere. High Power Laser and Particle Beams, 2006, 18(1): 119-123)

[17] 毛天鹏, 周东方, 牛忠霞, 等. 微波大气吸收衰减特性分析及分层数值算法[J]. 强激光与粒子束, 2004, 16(10): 1321-1324. (Mao Tianpeng, Zhou Dongfang, Niu Zhongxia, et al. Absorption and attenuation characteristic of microwave in atmosphere and delaminating algorithm. High Power Laser and Particle Beams, 2004, 16(10): 1321-1324)

[18] 唐涛, 廖成, 杨丹. FDTD求解高功率微波大气传播问题的可行性研究[J]. 电波科学学报, 2010, 25(1): 122-125. (Tang Tao, Liao Cheng, Yang Dan. Feasibility of solving high-power microwave propagation in the atmosphere using FDTD method. Chinese Journal of Radio Science, 2010, 25(1): 122-125)

[19] 唐涛, 廖成, 钟选明, 等. 高功率微波大气传播数值计算的加速方法[J]. 微波学报, 2010, 26(1): 19-21. (Tang Tao, Liao Cheng, Zhong Xuanming, et al. Acceleration method for numerical calculation of high power microwave propagation in the air. Journal of Microwaves, 2010, 26(1): 19-21)

[20] 曹金坤, 周东方, 牛忠霞, 等. 重复频率高功率高功率微波脉冲的大气击穿[J]. 强激光与粒子束, 2006, 18(1): 115-118. (Cao Jinkun, Zhou Dongfang, Niu Zhongxia, et al. Air breakdown by repetition-rate high power microwave pulse. High Power Laser and Particle Beams, 2006, 18(1): 115-118)

[21] Woo W, DeGroot J S. Microwave absorption and plasma heating due to microwave breakdown in the atmosphere[J]. Phys Fluids, 1984, 27: 475.