Pulsed power experiments at the Kurchatov Institute aimed at ICF

2007 16th IEEE International Pulsed Power Conference Pub Date : 2007-06-17 DOI:10.1109/PPPS.2007.4346300

A. Kingsep, S. Anan’ev, Y. Bakshaev, A. Bartov, P. Blinov, A. Chernenko, S. Danko, G. Dolgachev, Y. Kalinin, E. Kazakov, V. Korolev, D. Maslennikov, V. Mizhiritsky, V. Smirnov

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Abstract

A series of experiments has been carried out at the linear current flow densities up to 7 MA/cm, aimed at physical modeling of magnetically insulated transmission line of the Inertial Fusion Energy reactor based on the fast Z-pinch. The goals of these experiments were as follows: a) the study of the near-electrode plasma and its effect on the energy transfer; b) determination of the critical MITL parameters to foresee possible restrictions on the efficiency of IFE reactor. The loads were fabricated on the base of foam as profiled cylinders of (3–5) mm in diameter and with 30 mg/cm3 density, with the neck in its central part of about 1 mm in diameter. The goal of this series of experiments was the investigation of plasma dynamics in the Z-pinch neck and the mechanism of neutron generation accompanying the current-driven implosion. The prospects of application plasma opening switches as output cascades of pulsed power generators of megajoule range is studied on base of RS-20 machine. By using the programmed fill the diode gap by plasma, the suppression of pre-pulse has been achieved and shortening the pulse from 40 μs to 100 ns has been obtained.

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库尔恰托夫研究所针对ICF的脉冲功率实验

针对基于快速z夹紧的惯性聚变能堆磁绝缘传输线的物理建模，在高达7 MA/cm的线性电流密度下进行了一系列实验。这些实验的目的是:a)研究近电极等离子体及其对能量传递的影响;b)确定临界MITL参数，以预见IFE反应堆效率可能受到的限制。载荷是在泡沫塑料的基础上制成直径为(3-5)mm，密度为30 mg/cm3的圆柱体，颈部在其中心部分直径约为1 mm。这一系列实验的目的是研究z -掐颈中的等离子体动力学和伴随电流驱动内爆的中子产生机制。以RS-20为基础，研究了等离子体开路开关作为兆焦耳级脉冲发电机输出级联的应用前景。利用等离子体程控填充二极管间隙，实现了对预脉冲的抑制，使脉冲从40 μs缩短到100 ns。

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2007 16th IEEE International Pulsed Power Conference

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