Safeguarding nuclear material is an important and challenging task for the international community. One particular safeguards technique commonly used for uranium assay is active neutron correlation counting. This technique involves irradiating unused uranium with (α,n) neutrons from an Am-Li source and recording the resultant neutron pulse signal which includes induced fission neutrons. Although this non-destructive technique is widely employed in safeguards applications, the neutron energy spectra from an Am-Li sources is not well known. Several measurements over the past few decades have been made to characterize this spectrum; however, little work has been done comparing the measured spectra of various Am-Li sources to each other. This paper examines fourteen different Am-Li spectra, focusing on how these spectra affect simulated neutron multiplicity results using the code Monte Carlo N-Particle eXtended (MCNPX). Two measurement and simulation campaigns were completed using Active Well Coincidence Counter (AWCC) detectors and uranium standards of varying enrichment. The results of this work indicate that for standard AWCC measurements, the fourteen Am-Li spectra produce similar doubles and triples count rates. The singles count rates varied by as much as 20% between the different spectra, although they are usually not used in quantitative analysis.
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机译:保护核材料是国际社会的一项重要而具有挑战性的任务。通常用于铀测定的一种特殊的保障技术是主动中子相关计数。该技术涉及用来自Am-Li源的(α,n)中子辐照未使用的铀,并记录所得的包括感应裂变中子的中子脉冲信号。尽管这种非破坏性技术已广泛用于保障应用中,但是来自Am-Li光源的中子能谱却并不为人所知。在过去的几十年中,已经进行了几次测量来表征该频谱。但是,将各种Am-Li离子源的测量光谱相互比较的工作很少。本文研究了十四种不同的Am-Li光谱,重点研究了这些光谱如何使用代码Monte Carlo N粒子扩展(MCNPX)影响模拟中子多重性结果。使用活动井重合计数器(AWCC)检测器和不同浓度的铀标准,完成了两次测量和模拟活动。这项工作的结果表明,对于标准的AWCC测量,十四个Am-Li光谱会产生相似的两倍和三倍计数率。尽管不同光谱之间通常不使用单次计数率,但它们在不同光谱之间的差异高达20%。
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