全固态模块化 MARX电路及脉冲同步叠加设计
李江涛, 钟旭, 薛静, 李征, 李涛, 顾悦, 王亚楠. 全固态模块化 MARX电路及脉冲同步叠加设计[J]. 强激光与粒子束, 2015, 27(9): 095003.
Li Jiangtao, Zhong Xu, Xue Jing, Li Zheng, Li Tao, Gu Yue, Wang Ya’nan. Design of all-solid-state modularized Marx circuit and synchronous combining of pulses[J]. High Power Laser and Particle Beams, 2015, 27(9): 095003.
[1] Neau E L. Environmental and industrial applications of pulsed power systems[J]. IEEE Trans on Plasma Sci, 1994, 22(1): 2-10.
[2] Jiang W, Yatsui K, Takayama K, et al. Compact solid state-switched pulsed power and its applications[J]. Proc of the IEEE, 2004, 92(7): 1180-1196.
[3] Akiyama H, Sakugawa T, Namihira T, et al. Industrial applications of pulsed power technology[J].IEEE Trans on Dielectrics and Electrical Insulation, 2007, 14(5): 1051-1064.
[4] Yukimura K. Surface modification by three-dimensional ion implantation[J].Surface Technology, 2001, 52(6): 438-441.
[5] 黄永宪, 田修波, 杨士勤, 等. 等离子体浸没离子注入(PⅢ)过程中初始离子阵鞘层尺度内各物理量的时空演化[J]. 真空科学与技术学报, 2005,25(2):115-119.
Huang Yongxian, Tian Xiubo, Yang Shiqin, et al. Temporal evolution in an ion-matrix sheath during plasma immersion ion implantation. Chinese Journal of Vacuum Science and Technology, 2005, 25(2): 115-119
[6] Baba K, Hatada R, Flege S, et al. Deposition of diamond-like carbon films on inner wall surfaces of millimeter-size-diameter sted tubes by plasma source ion implantation[J]. IEEE Trans on Plasma Sci, 2011, 39(11): 3140-3143.
[7] Koval N N, Ivanov Y F, Ovcharenko V E, et al. Surface modification of TiC-NiCrAl hard alloy by pulsed electron beam[J].IEEE Trans on Plasma Sci, 2009, 37(10): 1998-2001.
[8] Endo F, Jiang W, Yatsui K, et al. NOx treatment using inductive-energy-storage pulsed power generator[J]. IEEE Trans on Fundamentals and Materials, 2004, 124(4): 321-325.
[9] 李海华. 探地雷达体制综述[J]. 测试技术学报, 2003, 17(1): 25-28.Li Haihua. Review of ground penetrating radar system. Journal of Test and Measurement Technology, 2003, 17(1): 25-28
[10] Annan A P. Ground penetrating radar workshop notes[R]. Tech Rep Sensors and Software Inc., Mississauga, 1999.
[11] 潘文俊, 侗创明, 周明. 等离子体与等离子体隐身技术[J]. 电讯技术, 2009, 49(8): 108-112.
Pan Wenjun, Tong Chuangming, Zhou Ming. Plasma and plasma stealth technology. Telecommunication Engineering, 2009, 49(8): 108-112
[12] 王仁德, 何炳发. 高功率微波武器与天线(一)[J]. 中国电子科学研究院学报, 2012, 7(2): 152-157.
Wang Rende, He Bingfa. High power microwave weapon and antenna(Ⅰ). Journal of CAEIT, 2012, 7(2): 152-157
[13] 李朝荣, 李永, 乐洪宇. 战术激光武器技术的发展动向与分析[J]. 舰船电子工程, 2013, 33(2): 13-16.
Li Chaorong, Li Yong, Le Hongyu. Development trend and analysis of the tactical laser weapons technology. Ship Electronic Engineering, 2013, 33(2): 13-16
[14] 江伟华. 高重复频率脉冲功率技术及其应用: (1) 概述[J]. 强激光与粒子束, 2012, 24(1): 10-15.
[15] 江伟华. 高重复频率脉冲功率技术及其应用: (6) 代表性的应用[J]. 强激光与粒子束, 2014, 26: 030201.
Jiang Weihua. Repetition rate pulsed power technology and its applications: (vi) Typical applications. High Power Laser and Particle Beams, 2014, 26: 030201
[16] Spirito P, Vitale G F. An analysis of the dynamic behavior of switching circuits using avalanche transistors[J]. IEEE Journal of Solid-State Circuits, 1972, 7(4): 315-320.
[17] Oak S M, Bindra K S, Narayan B S, et al. A fast cavity dumper for a picosecond glass laser[J]. Rev Sci Instrum, 1991, 62(2): 308-312.
[18] Rai V N, Shukla M, Khardekar R K. A transistorized Marx bank circuit providing sub-nanosecond high-voltage pulses[J]. Measurement Science and Technology,1994, 5(4): 447-449.
[19] Bishop A I, Barker P F. Subnanosecond pockels cell switching using avalanche transistors[J]. Rev Sci Instrum, 2006, 77: 044701.
[20] 王莹. 瞬态电磁脉冲传输特性与雪崩晶体管Marx信号源的研究[D]. 北京: 北京化工大学, 2012.
Wang Ying. The transmission characteristics of transient electromagnetic pulse and the research of avalanche transistor Marx signal source. Beijing: Beijing University of Chemical Technology, 2012
[21] Yuan Xuelin, Zhang Hongde, Bai Yang, et al. 4 kV/30 kHz short pulse generator based on time-domain power combining[C]//Proc of ICUWB 2010. 2010: 1-4.
[22] 彭先觉, 王真. Z箍缩驱动聚变-裂变混合能源堆总体概念研究[J]. 强激光与粒子束, 2014, 26: 090201.
Peng Xianjue, Wang Zhen. Conceptual research on Z-pinch driven fusion-fission hybrid reactor. High Power Laser and Particle Beams, 2014, 26: 090201
[23] 邓建军, 王勐, 谢卫平, 等. 面向Z箍缩驱动聚变能源需求的超高功率重复频率驱动器技术[J]. 强激光与粒子束, 2014, 26: 100201.
[24] 李正宏, 黄洪文, 王真, 等.Z箍缩驱动聚变-裂变混合堆总体概念研究进展[J]. 强激光与粒子束, 2014, 26: 100202.
[25] 李茂生, 师学明, 刘荣, 等. 次临界能源堆物理设计进展[J]. 强激光与粒子束, 2014, 26: 100203.
[26] 石小燕, 曹晓阳, 梁勤金, 等. 多路窄脉冲功率线路合成[J]. 强激光与粒子束, 2010, 22(4): 769-772.
李江涛, 钟旭, 薛静, 李征, 李涛, 顾悦, 王亚楠. 全固态模块化 MARX电路及脉冲同步叠加设计[J]. 强激光与粒子束, 2015, 27(9): 095003. Li Jiangtao, Zhong Xu, Xue Jing, Li Zheng, Li Tao, Gu Yue, Wang Ya’nan. Design of all-solid-state modularized Marx circuit and synchronous combining of pulses[J]. High Power Laser and Particle Beams, 2015, 27(9): 095003.