[2] [2] Andrei V G, Victor L G. Application of high-power microwaves［M］. Artech House, 1994.

[3] [3] Yan Eryan, Qiu Feng, Yang Hao, et al. Research of HPM plasma breakdown characteristics［C］//APCPST2016. 2016.

[7] [7] Woo W, DeGroot J S. Microwave absorption and plasma heating due to microwave breakdown in the atmosphere［J］. Phys Fluids, 1984, 27(2):475-487.

[8] [8] Vidmar R J. On the use of atmospheric pressure plasmas as electromagnetic reflectors and absorbers［J］. IEEE Trans Plasma Sci, 1990, 18(4):733-741.

[10] [10] Zhou Qianhong, Dong Zhiwei. Theoretical study on the energy loss induced by electron collisions in weakly ionized air plasma［J］. Acta Physica Sinica, 2013, 62:205201.

[11] [11] Liao B, Zhang S J, Na Z, et al. Study on low-power microwave plasma source based on microstrip split-ring resonator［J］. Journal of Shanghai Jiaotong University, 2009, 43(3):372-376.

[12] [12] Qiu F, Yan E, Meng F, et al. Analysis based on global model of nitrogen plasma produced by pulsed microwave at low pressure［J］. Physics of Plasmas, 2015, 22:073506.

[13] [13] Yang W, Zhou Q, Dong Z. Simulation study on nitrogen vibrational and translational temperature in air breakdown plasma generated by 110 GHz focused microwave pulse［J］. Physics of Plasmas, 2017, 24:013111.