Detection and characterization of shielded highly enriched uranium under active interrogation through time correlated fission events

2015 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC) Pub Date : 2015-10-01 DOI:10.1109/NSSMIC.2015.7581767

M. Monterial, P. Marleau, S. Pozzi

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Abstract

The time-correlated pulse-height (TCPH) distribution can be used to differentiate between multiplying (e.g 235U, 239Pu) and non-multiplying (e.g Am-Li, 252Cf) sources. In the past, this approach proved effective at characterizing the multiplication of alpha phase plutonium metal through a passive measurement. Recently, Sandia National Laboratories has completed a measurement campaign with its new Correlated Radiation Signature (CoRS) system involving active interrogation of highly enriched uranium (HEU) with an Am-Li source. An additional obstacle was introduced to the measurement configuration by shielding the HEU with depleted uranium (DU). Simulation results have proven Am-Li source to be a suitable interrogating source because of its relatively low-energy neutron spectrum. The TCPH distribution was successfully used to determine the presence of a multiplying medium inside DU shells. The correlation between multiplication and an empirical parameters broke down for externally driven configurations, but in all cases the presence of a multiplying source was detected.

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利用时间相关裂变事件在主动讯问下探测和表征屏蔽高浓缩铀

时间相关脉冲高度(TCPH)分布可用于区分倍增源(例如235U, 239Pu)和非倍增源(例如Am-Li, 252Cf)。在过去，这种方法被证明是有效的，可以通过被动测量来表征α相金属钚的增殖。最近，桑迪亚国家实验室(Sandia National Laboratories)利用其新的相关辐射特征(CoRS)系统完成了一项测量活动，该系统涉及用Am-Li源对高浓缩铀(HEU)进行主动探测。在测量配置中引入了一个额外的障碍，即用贫铀(DU)屏蔽高浓铀。模拟结果表明，Am-Li源具有较低的中子能谱，是一种合适的询问源。TCPH分布成功地用于确定DU壳内是否存在增殖介质。对于外部驱动的配置，乘法和经验参数之间的相关性被打破，但在所有情况下都检测到乘法源的存在。

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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2015 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC)

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