Detection of petawatt laser-induced muon source for rapid high-Z material detection

2014 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC) Pub Date : 2014-11-01 DOI:10.1109/NSSMIC.2014.7431088

W. Dreesen, J. A. Green, M. Browder, J. Wood, D. Schwellenbach, T. Ditmire, G. Tiwari, C. Wagner

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引用次数: 2

Abstract

A proof-of-concept investigation of a rapid detection system for shielded high-Z material using a petawatt laser-based muon source is presented. Unlike cosmic-ray muons, a laser-induced muon beam has unique characteristics that can be exploited for use in a rapid detection system. These characteristics include: (1) a near-point source of muons, (2) well-characterized muon energies, (3) directionality of the beam, and (4) well-defined timing of the muons. A detector system is being developed that combines multiple muon detection technologies to characterize an active muon source. This detection system and the associated data acquisition and analysis techniques are designed to search for deflections of the muon beam as it passes through high-Z materials. Additionally, the ability of the system to differentiate muons from the expected secondary particles, such as high-energy gammas and electrons, is being explored. The detector system's ability to differentiate muons from other particles, muon angular distribution, and measured muon flux will be discussed.

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用于高z材料快速探测的佩瓦激光诱导介子源探测

介绍了一种基于千瓦激光的介子源的屏蔽高z材料快速检测系统的概念验证研究。与宇宙射线μ子不同，激光诱导的μ子束具有独特的特性，可以用于快速检测系统。这些特征包括:(1)μ子的近点源，(2)具有良好特征的μ子能量，(3)光束的方向性，以及(4)确定的μ子时间。一种结合多种介子探测技术来表征有源介子的探测系统正在开发中。该检测系统和相关的数据采集和分析技术被设计用于搜索μ子束通过高z材料时的偏转。此外，该系统区分介子和预期的次级粒子(如高能伽马和电子)的能力正在探索中。探测器系统区分介子与其他粒子的能力、介子角分布和测量的介子通量将被讨论。

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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2014 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC)

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