[1] 卢新培,严萍,任春生,等.大气压脉冲放电等离子体的研究现状与展望[J].中国科学: 物理学 力学 天文学, 2011, 41(7): 801-815.(Lu Xinpei, Yan Ping, Ren Chunsheng, et al. Review on atmospheric pressure pulsed DC discharge. Science Sinica: Physica Mechanica Astronomica, 2011, 41(7): 801-815)

[2] Shao Tao, Zhang Cheng, Long Kaihua, et al. Surface modification of polyimide films using unipolar nanosecond-pulse DBD in atmospheric air[J]. Applied Surface Science, 2010, 256(12): 3888-3894.

[3] 章程,邵涛,许家雨,等.120 kV下常压空气纳秒脉冲电晕放电特性[J]. 强激光与粒子束，2012, 24(3): 597-601.(Zhang Cheng, Shao Tao, Xu Jiayu, et al. Characteristic of nanosecond-pulsed corona discharge at 120 kV in atmospheric-pressure air. High Power Laser and Particle Beams, 2012, 24(3): 597-601)

[4] Zhang C, Shao T, Xu J, et al. A gliding discharge in open air sustained by high-voltage resonant ac power supply[J]. IEEE Trans on Plasma Science, 2012, 40(11): 2843-2849.

[5] Shao T, Zhang C, Yu Y, et al. Temporal evolution of nanosecond-pulse dielectric barrier discharges in open air[J]. Europhysics Letter, 2012, 97: 55005.

[6] Nastuta A V, Pohoata V, Topala I. Atmospheric pressure plasma jet-Living tissue interface: Electrical,optical, and spectral characterization[J]. Journal of Applied Physics, 2013, 113: 183302.

[7] 章程, 邵涛, 于洋, 等. 重复频率纳秒脉冲介质阻挡放电对聚对苯二甲酸乙二酯表面改性[J]. 强激光与粒子束，2010, 22(3): 539-544.(Zhang Cheng, Shao Tao, Yu Yang, et al. Surface modification of polyethylene terephthalate films using dielectric barrier discharge driven by repetitive nanosecond pulses. High Power Laser and Particle Beams, 2010, 22(3): 539-544)

[8] 姜慧, 章程, 邵涛, 等. 纳秒脉冲表面介质阻挡放电特性实验研究[J]. 强激光与粒子束，2012, 24(3): 592-596.(Jiang Hui, Zhang Cheng, Shao Tao, et al. Experimental study on characteristics of nanosecond-pulse surface dielectric barrier discharge. High Power Laser and Particle Beams, 2012, 24(3): 592-596)

[9] Raizer Y P. Gas discharge physics [M]. Karlsruhe: Springer, 1991.

[10] 邵涛, 章程, 李文峰, 等. 空气中纳秒脉冲介质阻挡放电高速摄影[J]. 强激光与粒子束, 2012, 24(3): 612-616.(Shao Tao, Zhang Cheng, Li Wenfeng, et al. High speed imaging of nanosecond-pulse dielectric barrier discharge in atmospheric air. High Power Laser and Particle Beams, 2012, 24(3): 612-616)

[11] Fang Z, Shao T, Ji S, et al. Generation of homogeneous atmospheric-pressure dielectric barrier discharge in a large-gap argon gas[J]. IEEE Trans on Plasma Science, 2012, 40(7): 1884-1890.

[12] Tardiveau P, Moreau N, Bentaleb S, et al. Diffuse mode and diffuse-to-filamentary transition in a high pressure nanosecond scale corona discharge under high voltage[J]. Journal of Physics D: Applied Physics, 2009, 42: 175202.

[13] Pai D Z, Cappelli M A, Laux C O. The structure of nanosecond repetitively pulsed spark discharge in air[J]. IEEE Trans on Plasma Science, 2011, 39(11): 2258-2259.

[14] Namihira T, Wang D, Katsuki S, et al. Propagation velocity of pulsed streamer discharges in atmospheric air[J]. IEEE Trans on Plasma Science, 2003, 31(5): 1091-1094.

[15] Korolev Y D, Frants O B, and Geyman V G, et al. Transient processes during formation of a steady-state glow discharge in air[J]. IEEE Trans on Plasma Science, 2012, 40(11): 2951-2960.

[16] Zhang C, Shao T, Niu Z, et al. Diffuse and filamentary discharges in open air driven by repetitive high-voltage nanosecond pulses[J]. IEEE Trans on Plasma Science, 2011, 39(11): 2208-2209.

[17] Shao T, Tarasenko V F, Zhang C, et al. Spark discharge formation in an inhomogeneous electric field under conditions of runaway electro generation[J], Journal of Applied Physics, 2012, 111: 023304.

[18] Zhang C, Tarasenko V F, Shao T, et al. Effect of cathode materials on the generation of runaway electron beams and X-rays in atmospheric pressure air[J]. Laser and Particle Beams, 2013, 31(2): 353-364.

[19] Zhang C, Tarasenko V F, Shao T, et al. X-ray emission from a nanosecond-pulse discharge in an inhomogeneous electric field at atmospheric pressure[J]. Physics of Plasmas, 2012, 19: 123516.

[20] Shao T, Tarasenko V F, Zhang C, et al. Diffuse discharge produced by repetitive nanosecond pulses in open air, nitrogen, and helium[J]. Journal of Applied Physics, 2013, 113: 093301.

[21] Zhang C, Shao T, Ma H, et al. Experimental study on conduction current of positive nanosecond-pulse diffuse discharge at atmospheric pressure [J]. IEEE Trans on Dielectrics and Electrical Insulation, 2013, 20(4): 1304-1314.

[22] 邵涛, 孙广生, 严萍, 等. 基于TDS示波器的高压ns脉冲信号的测量[J]. 电气应用, 2005, 23(11): 84-87. (Shao Tao, Sun Guangsheng, Yan Ping, et al. Measurement of HV nanosecond-pulse signals based on TDS oscillograph. Electrotechnical Application, 2005, 23(11): 84-87)

[23] Shao Tao, Zhang Cheng, Niu Zheng, et al. Diffuse discharge, runaway electron, and X-ray in atmospheric pressure air in an inhomogeneous electrical field in repetitive pulsed mode [J]. Applied Physics Letters, 2011, 98: 021503.

[24] Korlolev Y D, Mesyats G A. Physics of pulsed breakdown in gases[M]. Ekaterinburg: URO-Press, 1998.

[25] Ono R, Oda T. Visualization of streamer channels and shock waves generated by positive pulsed corona discharge using laser schlieren method[J]. Japanese Journal of Applied Physics, 2004, 43(1): 321-327.