Calculation of efficiency and resolution of a hexagonal NaI(Tl) detector as a function of source position

Journal of Instrumentation Pub Date : 2024-07-01 DOI:10.1088/1748-0221/19/07/t07003

A. Hamzawy, M. Badawi, I. Ruskov, D. Grozdanov, M.I. Badawi, A. Thabet, Y. Kopatch, N. Fedorov, B. A. Salem, Tangra collaboration

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Abstract

Most gamma-ray scintillation detectors currently in use are made from inorganic materials that have a relatively high electron density. Quite often they are used to build multidetector systems that provide high scintillation light output. The performance of a gamma radiation detector (its detection efficiency) depends on the shape and size of the crystal, as well as on the source-to-detector geometry used. The NaI(Tl) gamma detector exhibits moderate energy resolution but relatively high gamma-ray detection efficiency and fast time response. In this work, the efficiency and resolution of a scintillation hexagonal detector are studied to optimize its response function. This type and size of scintillator were selected to construct a budget-friendly, reconfigurable, easy-to-maintain multidetector system for registering gamma-rays following fission, capture, and inelastic neutron scattering reactions, with reasonably good energy and time resolutions The research results made it possible to establish a geometric solid angle that increases the efficiency of recording gamma-ray radiation of the hexagonal NaI(Tl) scintillation probe under study.

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计算六边形 NaI(Tl)探测器的效率和分辨率与源位置的函数关系

目前使用的大多数伽马射线闪烁探测器都是由电子密度相对较高的无机材料制成的。它们通常用于构建多探测器系统，以提供高闪烁光输出。伽马辐射探测器的性能（探测效率）取决于晶体的形状和大小，以及所使用的辐射源到探测器的几何形状。碘化钛（NaI(Tl)）伽马探测器的能量分辨率适中，但伽马射线探测效率相对较高，时间响应也很快。在这项工作中，研究了闪烁六边形探测器的效率和分辨率，以优化其响应函数。选择这种类型和尺寸的闪烁体，是为了构建一个经济实惠、可重新配置、易于维护的多探测器系统，用于记录裂变、俘获和非弹性中子散射反应后的伽马射线，并具有相当好的能量和时间分辨率。

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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Journal of Instrumentation

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