Lohith Annadevula , S.K. Aghara , Chris Gazze , Kenneth Jarman , Claude Norman
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引用次数: 0
摘要
使用 identiFinder2('HM5')探测器对两个材料试验反应堆(MTR)燃料组件--一个装有低浓缩铀板(LEU),另一个装有高浓缩铀板(HEU)--进行了浓缩度测量。使用统计模型评估了国际原子能机构(IAEA)以缺陷检测概率(DP)形式核查核材料层的检查计划的有效性。这些模型使用缺陷识别概率 (IP) 曲线,表示测量项目被识别为缺陷项目的概率。本文介绍了一种新的建模程序,该程序可将实验测量结果转换为 IP 曲线,在 DP 模拟中采用这种由实验得出的 IP 曲线将更好地代表材料类型、材料分布和板配置等实验条件。实验性能曲线与简单统计模型(高斯,15% 相对标准偏差 RSD)的比较表明,HM5 测量模型响应的 DP 结果能更好地捕捉实验条件。这一结果凸显了进一步研究实验误差变量测试模型开发的必要性,因为使用简单模型并不能充分反映 LEU 或 HEU 的真实性能。
Modeling detector response curves for a high-fidelity uranium measurement for use in simulations
Enrichment measurements using identiFinder2 (‘HM5’) detector are performed on two Material Testing Reactor (MTR) fuel assemblies - one with low-enriched uranium plates (LEU) and another with high-enriched uranium plates (HEU). The effectiveness of International Atomic Energy Agency (IAEA) inspection plans for verifying nuclear material strata, in the form of defect detection probability (DP), is evaluated using statistical models. These models use defect identification probability (IP) curves, which represent the probability that a measured item is identified as a defective item. This paper describes a new modeling procedure that converts the experimental measurements into IP curves and employing such experimentally derived IP curves within DP simulations will better represent the experimental conditions like material type, material distribution, and plate configuration. A comparison of experimental performance curves to a simple statistical model (Gaussian, 15% relative standard deviation RSD) shows that the DP results from the modeled response of HM5 measurements better captures the experimental conditions. This result highlights a need for further research into experimental error variables test model development as use of a simple model does not adequately capture true performance in either the LEU or HEU cases.
期刊介绍:
The journal seeks to publish papers that present advances in the following areas: spontaneous and stimulated luminescence (including scintillating materials, thermoluminescence, and optically stimulated luminescence); electron spin resonance of natural and synthetic materials; the physics, design and performance of radiation measurements (including computational modelling such as electronic transport simulations); the novel basic aspects of radiation measurement in medical physics. Studies of energy-transfer phenomena, track physics and microdosimetry are also of interest to the journal.
Applications relevant to the journal, particularly where they present novel detection techniques, novel analytical approaches or novel materials, include: personal dosimetry (including dosimetric quantities, active/electronic and passive monitoring techniques for photon, neutron and charged-particle exposures); environmental dosimetry (including methodological advances and predictive models related to radon, but generally excluding local survey results of radon where the main aim is to establish the radiation risk to populations); cosmic and high-energy radiation measurements (including dosimetry, space radiation effects, and single event upsets); dosimetry-based archaeological and Quaternary dating; dosimetry-based approaches to thermochronometry; accident and retrospective dosimetry (including activation detectors), and dosimetry and measurements related to medical applications.
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