Pulsed power electron and ion beams diagnostics based on simultaneous detection of acoustic longitudinal and flexural waves

A. Bardenstein, V. Bykov, D. Vaisburd
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引用次数: 1

Abstract

A method and technique for measuring the pulsed power electron and ion beam energy density (W in J/m/sup 2/) absorbed by a target as well as the main elastic constants of material have been proposed and realized. The method developed is based on the authors' laser-interferometric and theoretical investigations of the space-time characteristics and amplitudes of thermoacoustic waves excited by pulsed power electron beams in various solids: metals; alloys; semiconductors; amorphous and crystalline dielectrics; and composites. Experimental conditions under which compression-expansion pulse of the longitudinal wave and flexural oscillations of a sample can be observed simultaneously, have been found. As the experiments have shown, the amplitude of thermoelastic flexural wave as well as the amplitude of longitudinal pulse is proportional to W. The authors reconstruct the profile of beam dose absorbed by material and determine W using available standard samples with known elastic constants and Gruneisen's parameter and the interferometry data on longitudinal and flexural thermoacoustic waves.
基于声波纵波和弯曲波同时检测的脉冲功率电子束和离子束诊断
提出并实现了一种测量靶体吸收的脉冲功率电子和离子束能量密度(W单位:J/m/sup 2/)和材料主要弹性常数的方法和技术。该方法是基于作者对脉冲功率电子束在各种固体金属中激发的热声波的时空特征和振幅的激光干涉和理论研究;合金;半导体;非晶和晶体介质;和复合材料。找到了同时观测纵波压缩膨胀脉冲和试样弯曲振荡的实验条件。实验结果表明,热弹性弯曲波的振幅和纵向脉冲的振幅与W成正比。作者利用已知弹性常数和Gruneisen参数的现有标准样品和纵向和弯曲热声波的干涉测量数据,重建了材料吸收光束剂量的分布,并确定了W。
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