A Compact Pulser for Magnetically Driven Isentropic-Compression Experiments

2006 IEEE International Conference on Megagauss Magnetic Field Generation and Related Topics Pub Date : 2006-11-01 DOI:10.1109/MEGAGUSS.2006.4530712

M. Bavay, J. Mervini, R. Spielman, G. Avrillaud, M. Delchambre, J. Guerre, F. Bayol, F. Cubaynes

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引用次数: 1

Abstract

The use of magnetic fields to isentropically compress materials for equation-of-state studies has been first demonstrated on the Z machine at SNL [1]. Sharing similarities with the GEPI pulser [2], a compact pulser has been designed and built, focusing on Isentropic Compression Experiments. In order to achieve high compacity and fast turn around, the design is built around a solid dielectric transmission line to couple current from eight low-inductance capacitors that are switched with ultra-low-inductance multi-channel gas switches operating in dry air at atmospheric pressure. A peaking stage made of 72 capacitors enhanced by a low inductance, multi-channel sharpening switch brings the fundamental rise time of the pulser down to 350 ns (10-90%). A set of inductances in parallel with the sharpening switch as well as using various gases into this switch allow us to modify the current wave shape. The pulser delivers a peak current of 4 MA at a charge voltage of 80 kV on a short circuit. The rise time can be lengthened to around 650 ns for a current of 4.2 MA. The use of post-holes convolutes in a solid dielectric insulation design makes that pulser unique as well as its compact size, ease of use and ease of access to the load.

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用于磁驱动等熵压缩实验的紧凑型脉冲发生器

利用磁场等熵压缩材料进行状态方程研究已经在SNL的Z机上首次得到证实[1]。与GEPI脉冲发生器有相似之处[2]，我们设计并建造了一个紧凑型脉冲发生器，专注于等熵压缩实验。为了实现高容量和快速周转，该设计围绕一条固体介质传输线来耦合来自八个低电感电容器的电流，这些电容器在大气压力下的干燥空气中使用超低电感多通道气体开关进行切换。由72个电容器组成的峰值级通过低电感、多通道锐化开关增强，使脉冲发生器的基波上升时间降至350 ns(10-90%)。与锐化开关并联的一组电感以及在该开关中使用各种气体使我们能够修改电流波形。脉冲发生器在短路时充电电压为80千伏，峰值电流为4毫安。当电流为4.2 MA时，上升时间可延长至650 ns左右。在固体介质绝缘设计中使用后孔卷积使得脉冲发生器独特，并且尺寸紧凑，易于使用和易于访问负载。

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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来源期刊

2006 IEEE International Conference on Megagauss Magnetic Field Generation and Related Topics

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