[15] Ekdahl C, Abeyta E O, Aragon P. Suppressing beam-centroid motion in a long-pulse linear induction accelerator[J]. Phys Rev Special Topics—Accel Beams, 14, 120401(2011).

[17] Smith I D. Induction voltage adders and the induction accelerator family[J]. Phys Rev Special Topics—Accel Beams, 7, 064801(2004).

[19] Smith J, Carlson R, Fulton R, et al. Cygnus dual beam radiography source[C]Proc of the 15th Pulsed Power Conference. 2005: 334337.

[20] Smith J, Nelson D, mond E, et al. Cygnus perfmance in subcritical experiments[C]Proc of the 16th Pulsed Power Conference. 2007: 10891094.

[23] Xie Weiping. The introduction of flash Xray sources f radiography in Institute of Fluid Physics[C]Proc of 7th EuropeAsia Pulsed Power Conference High Power Particle Beams Conference. 2018.

[25] Olson C L. Progress on Z pinch IFE[C]20th IAEA Fusion Energy Conference. 2004.

[27] Wang Xinxin. Research at Tsinghua University on electrical explosions of wires[J]. Matter and Radiation at Extremes, 4, 74-84(2019).

[28] Wu Jian, Lu Yihan, Sun Fengju. Research on preconditioned wire array Z pinches in Xi'an Jiaotong University[J]. Matter and Radiation at Extremes, 4, 85-95(2019).

[30] Li Zhenghong, Wang Zhen, Xu Rongkun. Experimental investigation of Z-pinch radiation source for indirect drive inertial confinement fusion[J]. Matter and Radiation at Extremes, 4, 53-73(2019).

[40] Fan Yajun, Liu Guozhi, Liu Xiaolong, et al. A compact subnanosecond pulse generat[C]Proc of the 1st EuroAsia Pulsed Power Conference. 2006: 246248.

[48] Yang Jianhua, Zhang Zicheng, Yang Hanwu. Compact intense electron beam accelerators based on high energy density liquid pulse forming lines[J]. Mater and Radiation at Extremes, 3, 278-292(2018).

[49] Hegeler F, Mcgeoch M, Sethian J. A durable gigawatt class solid state pulsed power system[J]. IEEE Trans Dielectrics and Electrical Insulation, 18, 1205-1213(2011).

[56] Schilling H, Schüter J, Peters M, et al. High voltage generat with fast risetime f EMP simulation[C]IEEE 10th International Pulse Power Conference. 1995: 13591364.

[57] Gilman C, Lam S K, Naff J T, et al. Design perfmance of the FEMP2000: A fast risetime, 2 MV EMP pulser[C]IEEE 12th International Pulse Power Conference. 1999: 14371440.

[58] Giles J C, Prather W D. Worldwide high-altitude nuclear electromagnetic pulse simulators[J]. IEEE Trans Electromagnetic Compatibility, 55, 475-483(2013).

[71] Ebert U. The stages of a pulsed gas disge[C]The19th Asian Conference on Electrical Disge. 2019.

[72] Komurasaki K. Thirty years development of Hall thruster in Japan[C]The19th Asian Conference on Electrical Disge. 2019.

[73] Gennady R. Electrodisge technologies pulsed sources of highintensity gedparticle beams dense plasma[C]The19th Asian Conference on Electrical Disge. 2019.

[74] Redondo L M S. Pulsed power technology, application dissemination[R]. Wkshop at Xi''an Jiaotong University, 2019.

[79] Mei Danhua. Plasma catalysis—A promising tool f energy conversion[C]The19th Asian Conference on Electrical Disge. 2019.

[92] Shao Tao. Pulsed disge plasma f energy applications at atmospheric pressure[C]The19th Asian Conference on Electrical Disge. 2019.

[93] Rose D V, Waisman E M, Hutsel B T, et al. Understing current loss in the Z machine double posthole convolute[C]The 6th EuroAsian Pulsed Power Conference. 2016: 159.

[98] Zimenkov A A, Duday P V, Evgueniy, et al. Fmation of current pulses with the amplitude to 10 MA rise time ~100 ns in experiments with EMG[C]The 6th EuroAsian Pulsed Power Conference. 2016: 264.

[99] Duday P V, Kalinychev A E, Bazanov A A, et al. Plasma focus neutron source powered by explosive magic generat[C]The 6th EuroAsian Pulsed Power Conference. 2016: 277.

[100] Xiao Renzhen, Chen Changhua, Sun Jun. A high-power high-efficiency klystronlike relativistic backward wave oscillator with a dual-cavity[J]. Applied Physics Letters, 38, 2730-2733(2011).

[102] Zhang Jun, Zhang Dian, Fan Yuwei. Progress in narrowband high-power microwave sources[J]. Physics of Plasma, 27, 010501(2020).

[105] Hu Long, Su Jiancang, Qiu Ruicheng. Ultra-wideband microwave generation using a low-energy-triggered bulk gallium arsenide avalanche semiconductor switch with ultrafast switching[J]. IEEE Trans Electron Devices, 65, 1308-1313(2018).

[108] Jiang Weihua. Solid-state LTD module using power MOSFETs[J]. IEEE Trans Plasma Science, 38, 2730-2733(2018).