期刊文献+

一种磁绝缘传输线真空功率流的电路计算方法 被引量:2

Circuit simulation method for calculating vacuum power flow in magnetically insulated transmission line
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摘要 介绍了基于电报方程的磁绝缘传输线真空功率流电路计算方法的基本原理,开发了相应的计算程序,对Angara-5-1装置4600发次实验进行了计算,电路模拟结果与实验结果符合较好,提供了一种新的计算磁绝缘传输线真空功率流的方法,分析了Angara-5-1装置磁绝缘传输线阻抗突变处损失电流随时间的变化规律,讨论了该方法与TLCODE和Bertha等电路模拟方法的区别,采用该电路模拟方法计算Angara-5-1等工作在超磁绝缘状态的脉冲功率装置,不仅能够保证计算精度而且提高了解的收敛性,使得对磁绝缘传输线损失电流的计算更加自洽。 A method based on the telegraph equation to simulate the vacuum power flow in magnetically insulated transmis- sion line was introduced. Shot 4600 at Angara-5-1 facility was computed, and the simulation results agree well with the experi ment results. The loss current of the elements at joints of different MITL structures was analyzed. Also, the difference between this method and other circuit simulation methods such as TLCODE and Bertha was discussed. The method is a new way of esti- mating the vacuum power flow in magnetically insulated transmission line. It can not only enhance numerical convergence of solu tion, but also ensure the rmmerical precision and self-consistency in loss current calculation.
出处 《强激光与粒子束》 EI CAS CSCD 北大核心 2013年第7期1845-1850,共6页 High Power Laser and Particle Beams
基金 中国工程物理研究院科学技术发展基金重点项目(2012A0402017)
关键词 电报方程 磁绝缘传输线 电路模拟 Angara-5—1装置 telegraph equation magnetically insulated transmission line circuit simulation Angara-5-1 facility
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参考文献15

  • 1Stygar W A, Cuneo M E, Headley D I, et al. Architecture of petawatt-class Z pinch accelerators[J]. Physical Review Special Topics--Accelerators and Beams, 2007, 10:030401.
  • 2Ottinger P F, Schumer J W. Rescaling of equilibrium magnetically insulated flow theory based on results from particle in cell simulations [J]. Physics of Plasmas, 2006, 13:063109.
  • 3Rose D V, Welch D R, Hughes T P, et al. Plasma evolution and dynamics in high power vacuum-transmission-line post-hole convolutes[J].Physical Review Special Topics Accelerators and Beams, 2008, 11:060401.
  • 4Ottinger P F, Schumer J W. Self-consistent modeling of power flow in a recyclable transmission line for a Z-pinch-driven IFE system[J]. IEEE Trans on Plasma Science, 2007, 35(2) : 154-164.
  • 5郭帆,李永东,王洪广,刘纯亮,呼义翔,张鹏飞,马萌.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(10):162-168. 被引量:5
  • 6Stygar W A, Corcoran P A, Ives H C, et al. 55-TW magnetically insulated transmission-line system: design, simulations, and performance [J]. Physical Review Special Topics Acceleratorsand Beams, 2009, 12:120401.
  • 7Bergeron K D. Equivalent circuit approach to long magnetically insulated transmission lines[J]. Journal of Applied Physics, 1977, 48(7) : 3065-3069.
  • 8Samokhin A A. High power electromagnetic wave in a magnetically insulated transmission line of the ANGARA-5-1 facility[J]. Plasma Physics Reports, 2010, 36(8) :682 698.
  • 9Samokhin A A. Numerical investigation of the physical model of a high power electromagnetic wave in a magnetically insulated transmission line[J]. Plasma Physics Reports, 2010, 36(2) :149-163.
  • 10宋盛义,关永超,顾元朝,邹文康.初级试验平台磁绝缘传输线的电路模拟[J].强激光与粒子束,2008,20(5):833-838. 被引量:5

二级参考文献34

  • 1宋盛义,仇旭.TLCODE模拟方法介绍[J].强激光与粒子束,2005,17(4):614-618. 被引量:9
  • 2宋盛义,顾元朝,关永超,邹文康.TLCODE方法在多路传输线并联电路中的应用[J].强激光与粒子束,2006,18(12):2109-2112. 被引量:2
  • 3邹文康,邓建军,宋盛义.欠匹配二极管有效电流评估[J].强激光与粒子束,2007,19(6):992-996. 被引量:6
  • 4韩曼,邹晓兵,张贵新.脉冲功率技术基础[M].北京:清华大学出版社,2010.
  • 5Cipiti B B. Fusion transmutation of waste and the role of the in-Zinerator in the nuclear fuel cycleER. SAND2006 3522, 2006.
  • 6彭先觉.z箍缩核聚变核能源:一条值得探求的科技之路[C]//中物院2008年科技年会大会报告.
  • 7Kim AA, Kovalchuk BM, BastrikovA N, et al. 100 nscurrent rise time LTDstageEC//13thlEEEInt Pulsed Power Conf. 2001:1491-1494.
  • 8Kim A A, Bastrikov A N, Volkovet S N, et al. Development of the ultra-fast LTD stageC//Proceedings of Beams 2002: 14th Internation al Conference on High-power Particle Beams. 2002:81 84.
  • 9Chen L, Zhou L, Zou W, et al. The design and the first test results of a fast LTD stageEJ. Acta Physica PoZonica A, 2009, 115(6) : 1186 1188.
  • 10Stygar W A, Cuneo M E, Headley D I, et al. Architecture of petawatt-elass Z pinch accelerators[-J. PhysRev STAccel Bea*;'s, 2007, 10: 030401.

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