磁绝缘传输线阻抗变化对空间电子流的影响
[1] 宋盛义.圆盘锥磁绝缘传输系统电磁性能及结构力学理论计算[D].绵阳:流体物理研究所, 2004:1-5.(Song Shengyi. Calculation of electromagnetic performance and structural mechanics of the circular-conic magnetically insulated transmission line. Mianyang: Institute of Fluid Physics, 2004:1-5)
[2] Spielman R B, Stygar W A, Struve K W, et al. PBFA Z: A 55 TW/45 MJ electrical generator[C]//IEEE Particle Accelerator Conference. 1997:1235-1239.
[3] Spielman R B, Long F, Martin T H, et al. PBFA Ⅱ-Z: A 20 MA driver for Z-pinch experiments[C]//10th IEEE Int Pulsed Power Conf. 1995:396-404.
[4] Stygar W A, Spielman R B, Allshouse G O, et al. Design and performance of the Z magnetically-insulated transmission lines[C]//11th IEEE Int Pulsed Power Conf. 1997:591-596.
[5] 郭帆,李永东,王洪广,等.Z箍缩装置外磁绝缘传输线全尺寸粒子模拟研究[J].物理学报, 2011, 60:102901.(Guo Fan, Li Yongdong, Wang Hongguang, et al. Particle-in-cell simulation of outer magnetically insulated transmission line of Z-pinch accelerator. Acta Physica Sinica, 2011, 60:102901)
[6] Mendel C W, Rosenthal S E. Dynamic modeling of magnetically insulated transmission line systems[J]. Phys Plasmas, 1996, 3(11):4207-4219.
[7] Pointon T D, Savage M E. 2-D PIC simulations of electron flow in the magnetically insulated transmission lines of Z and ZR[C]//15th IEEE Int Pulsed Power Conf. 2005:151-154.
[8] Hughes T P, Clark R E, Oliver B V, et al. Sheath-current retrapping in the Z mitls[C]//14th IEEE Int Pulsed Power Conf. 2003:622-625.
刘腊群, 刘大刚, 王学琼, 王辉辉. 磁绝缘传输线阻抗变化对空间电子流的影响[J]. 强激光与粒子束, 2012, 24(9): 2255. Liu Laqun, Liu Dagang, Wang Xueqiong, Wang Huihui. Effect on electron flow of impedance change in magnetically insulated transmission lines[J]. High Power Laser and Particle Beams, 2012, 24(9): 2255.
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