PROCYON: 18-MJ, 2-/spl mu/s pulsed power system

J. Goforth, B. Anderson, W. E. Anderson, W.L. Atchinson, E. Bartram, J. Benage, R. Bowers, J. Brownell, C. Findley, C. Fowler, O. Garcia, G.J. Heltne, D. Herrera, T. Herrera, M. Hockaday, G. Idzorek, J. King, I. Lindemuth, E. Lopez, S. Marsh, E. C. Martinez, W. Matuska, G.T. Nakafuji, M. Thompson, H. Oona, D. Peterson, R. Reinovsky, M. Rich, J. Shlachter, K.D. Sowder, J. Stokes, L.J. Tabaka, D. Torres, L. Veeser, M. Yapuncich
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引用次数: 4

Abstract

The Procyon high explosive pulsed power (HEPP) system was designed to drive plasma Z-pinch experiments that produce Megajoule soft X-ray pulses when the plasma stagnates on axis. In the proceedings of the Ninth IEEE Pulsed Power Conference, the authors published results from system development tests. At this time, they have fielded seven tests in which the focus was on either vacuum switching or load physics. Four of the tests concentrated on the performance of a plasma flow switch (PFS) which employed a l/r mass distribution in the PFS barrel. Of the four tests, two had dummy loads and one had an implosion load. In addition, one of the tests broke down near the vacuum dielectric interface, and the result demonstrated what Procyon could deliver to an 18 nH load. The authors summarize PFS results and the 18 nH test which is pertinent to upcoming solid/liquid liner experiments. On their other three tests, they eliminated the PFS switching and powered the Z-pinch directly with the HEPP system. From the best of these direct drive tests, they obtained 1.5 MJ of radiation in a 250 ns pulse, their best radiation pulse to date. They also summarize direct drive test results. More details are given in other papers in this conference for both the PFS and direct drive experiments, and an updated analysis of their opening switch performance is also included. The remainder of this paper describes the parameters and capabilities of their system, and they use the data from several experiments to provide more precise information than previously available.
PROCYON: 18-MJ, 2-/spl mu/s脉冲功率系统
Procyon高爆炸脉冲功率(HEPP)系统设计用于驱动等离子体Z-pinch实验,当等离子体在轴上停滞时产生兆焦耳软x射线脉冲。在第九届IEEE脉冲功率会议的论文集中,作者发表了系统开发测试的结果。目前,他们已经进行了七次测试,重点是真空开关或负载物理。其中四项试验集中在等离子体流量开关(PFS)的性能上,该开关在PFS管体内采用l/r质量分布。在四次试验中,两次有虚拟载荷,一次有内爆载荷。此外,其中一个测试在真空介电界面附近破裂,结果证明了Procyon可以在18 nH的负载下输送什么。作者总结了PFS结果和与即将进行的固/液衬垫试验相关的18nh试验。在其他三个测试中,他们取消了PFS开关,直接使用HEPP系统为Z-pinch供电。从这些最佳的直接驱动测试中,他们在250ns脉冲中获得了1.5 MJ的辐射,这是他们迄今为止最好的辐射脉冲。他们还总结了直接驾驶测试的结果。本次会议的其他论文给出了PFS和直接驱动实验的更多细节,并对它们的开闸性能进行了更新分析。本文的其余部分描述了他们的系统的参数和功能,他们使用来自几个实验的数据来提供比以前更精确的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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