Rod-pinch electron beam diodes as X-ray radiography sources

12th International Conference on High-Power Particle Beams. BEAMS'98. Proceedings (Cat. No.98EX103) Pub Date : 1998-06-07 DOI:10.1109/BEAMS.1998.822384

G. Cooperstein, R. Commisso, D. Hinshelwood, P. Ottinger, D. Rose, S. Stephanakis, S. Swanekamp, F. Young

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引用次数: 7

Abstract

This paper reports on recent NRL Gamble II experiments with rod-pinch diodes which duplicate and extend previous results. These diodes utilize a thin annular cathode surrounding a small diameter anode rod extending through and beyond the plane of the cathode. Up to seven rods were simultaneously pulsed with each rod displaying well behaved electrical characteristics (0.8-1.5 MV at impedances of 15 to 30 ohms). Time and spatially resolved X-ray Pin diode detectors demonstrated efficient current (>50%) propagation along each rod. The 50 rads Si that was measured 30 cm from each carbon rod (0.16 cm radius) with Ta cone tips at 1.5 MV corresponds to 10-1000 times the dose of other point radiography sources. While previous rod-pinch experiments were performed with solid rods, a new high-velocity, high-efficiency propagation mode was demonstrated using a hollow cylinder with a 6-/spl mu/m Al wall and a carbon end plug. It is speculated that the propagation was via electron reflexing through the thin anode rod without the need for anode ion production. Also, when no end plug was used, the electron beam appeared to reflex along the entire length of the rod until it lost its energy.

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作为x射线照相源的棒夹电子束二极管

本文报道了最近NRL的甘布尔实验，该实验重复和扩展了以往的结果。这些二极管利用一个薄的环形阴极围绕着一个小直径的阳极棒，穿过并超越阴极的平面。多达七个棒同时脉冲，每个棒显示良好的电特性(0.8-1.5 MV阻抗为15至30欧姆)。时间和空间分辨x射线引脚二极管探测器显示沿每个棒的有效电流(>50%)传播。在距离每个碳棒(半径0.16 cm) 30 cm处测量50 rads Si, Ta锥尖端为1.5 MV，对应于其他点射线源剂量的10-1000倍。之前的杆夹夹实验是用固体杆进行的，而现在，研究人员展示了一种新的高速、高效的传播模式，该模式使用的是具有6-/spl μ m铝壁和碳端塞的空心圆柱体。推测其传播是通过电子在细阳极棒上的反射而不需要产生阳极离子。此外，当没有使用端塞时，电子束似乎沿着整个杆的长度反射，直到它失去能量。

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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12th International Conference on High-Power Particle Beams. BEAMS'98. Proceedings (Cat. No.98EX103)

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