用中子标记检查海运集装箱

IF 0.9 Q3 NUCLEAR SCIENCE & TECHNOLOGY EPJ Nuclear Sciences & Technologies Pub Date : 2021-01-01 DOI:10.1051/EPJN/2021004

B. Pérot, C. Carasco, C. Eleon, S. Bernard, A. Sardet, W. E. Kanawati, C. Deyglun, G. Perret, G. Sannie, V. Valković, D. Sudac, J. Obhodas, S. Moretto, G. Nebbia, C. Fontana, F. Pino, A. Donzella, A. Zenoni, A. Iovene, C. Tintori, M. Moszynski, M. Gierlik

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引用次数: 1

摘要

在过去的20年里，对海运货物集装箱的中子检查进行了广泛的研究，以非侵入性地检测恐怖主义威胁，如爆炸物或特殊核材料(SNM)，以及非法货物，如毒品或走私材料。快速的14 MeV中子由便携式发生器与t(d, n)α聚变反应产生，并在方向和时间上都有标记，这要归功于α粒子探测。这种相关粒子技术(APT)允许对容器中的特定区域进行集中检查，这些区域以前被x射线扫描仪或辐射门户监视器识别为含有可疑物品。我们描述了用于非核材料识别和核材料检测的APT原理，然后我们提供了在不同货物盖负载(例如金属，有机或陶瓷基质)中使用大量(公斤)爆炸物，非法药物或SNM进行10分钟检查的性能说明。

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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Sea container inspection with tagged neutrons

Neutron inspection of sea-going cargo containers has been widely studied in the past 20 yr to non-intrusively detect terrorist threats, like explosives or Special Nuclear Materials (SNM), and illicit goods, like narcotics or smuggling materials. Fast 14 MeV neutrons are produced by a portable generator with the t(d, n)α fusion reaction, and tagged in both direction and time thanks to the alpha particle detection. This Associated Particle Technique (APT) allows focusing inspection on specific areas of interest in the containers, previously identified as containing suspicious items with X-ray radiographic scanners or radiation portal monitors. We describe the principle of APT for non-nuclear material identification, and for nuclear material detection, then we provide illustrations of the performances for 10 min inspections with significant quantities (kilograms) of explosives, illicit drugs, or SNM, in different cargo cover loads (e.g. metallic, organic, or ceramic matrices).

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