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The Plasma Channel Evolution Characteristics of Pulsed Flashlamps Working in an Array 被引量:3

The Plasma Channel Evolution Characteristics of Pulsed Flashlamps Working in an Array
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摘要 This work is devoted to the study of plasma channel evolution characteristics in pulsed xenon flashlamps working in an array. Influencing factors on the plasma channel evolution process are studied, including pre-ionization pulse and neighbor fiashlamps. It has been found that neighbor flaShlamps affect the plasma channel by shaping the electric potential distribution, rather than by Lorentz force. Branching is observed in the plasma channels of the flashlamps in the middle of the array. Inconsistency also exists in the plasma channels of these flashlamps in different tests. The branching and inconsistency are both caused by the unique electric field distribution in these flashlamps. Besides, the pre-ionization pulse can help the main pulse plasma channel to develop more smoothly and faster, which will weaken the shock wave and benefit the mechanical strength of the flashlamp. This work is devoted to the study of plasma channel evolution characteristics in pulsed xenon flashlamps working in an array. Influencing factors on the plasma channel evolution process are studied, including pre-ionization pulse and neighbor fiashlamps. It has been found that neighbor flaShlamps affect the plasma channel by shaping the electric potential distribution, rather than by Lorentz force. Branching is observed in the plasma channels of the flashlamps in the middle of the array. Inconsistency also exists in the plasma channels of these flashlamps in different tests. The branching and inconsistency are both caused by the unique electric field distribution in these flashlamps. Besides, the pre-ionization pulse can help the main pulse plasma channel to develop more smoothly and faster, which will weaken the shock wave and benefit the mechanical strength of the flashlamp.
出处 《Plasma Science and Technology》 SCIE EI CAS CSCD 2013年第7期640-643,共4页 等离子体科学和技术(英文版)
关键词 xenon flashlamps plasma channel inertial confined fusion xenon flashlamps, plasma channel, inertial confined fusion
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  • 1Smith B. 1986, Overview of fiashlamps and arc lamps. Flashlamp Pumped Laser Technology. The Interna?tional Society for Optical Engineering, p.I.
  • 2Erlandson A C, Gerasimov V A, Nikiforov V G, et al. 1997, Flashlamp for NIF: Russian variant. Second An?nual International Conference on Solid State Lasers for Application to Inertial Confinement Fusion, Pairs, France. SPIE-International Society of Optical Engi?neering, p.627.
  • 3Nikolaevskii V G, Putilin V M, Gerasimov V A, et al. 2002, Plasma Devices Oper., 10: 135.
  • 4Liu J, Jiang B, Tang X, et al. 2006, Chin. J. Lasers, 33: 326 (in Chinese).
  • 5Goncz J H. 1965, J Appl. Phys., 36: 742.
  • 6Selcuk C and Wood J V. 2005, Powder Metall., 48: 241.
  • 7Elloumi H, Zissis G, Berthier T, et al. 2004, J. Quant. Spectrosc. Ra., 86: 361.
  • 8Ma Yongbo, Peng Shuming, Long Xinggui, et al. 2010, High Power Laser Part. Beams, 22: 2483 (in Chinese).
  • 9Li X, Zhao H, Jiang X, et al. 2012, Breakdown Elec?tric Field Calculation of Hot SF6 and its Application to High Voltage Circuit Breakers. 58th IEEE Holm Conference on Electrical Contacts, p.43.
  • 10Jia S L, Li X W, Li R, et al. 2012, High Power Laser Part. Beams, 24: 248 (in Chinese).

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