Characterization of Crystal Properties and Defects in CdZnTe Radiation Detectors

Manuel Ballester, Jaromir Kaspar, Francesc Massanes, Srutarshi Banerjee, Alexander Hans Vija, Aggelos K. Katsaggelos
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Abstract

CdZnTe-based detectors are highly valued because of their high spectral resolution, which is an essential feature for nuclear medical imaging. However, this resolution is compromised when there are substantial defects in the CdZnTe crystals. In this study, we present a learning-based approach to determine the spatially dependent bulk properties and defects in semiconductor detectors. This characterization allows us to mitigate and compensate for the undesired effects caused by crystal impurities. We tested our model with computer-generated noise-free input data, where it showed excellent accuracy, achieving an average RMSE of 0.43% between the predicted and the ground truth crystal properties. In addition, a sensitivity analysis was performed to determine the effect of noisy data on the accuracy of the model.
碲锌镉辐射探测器的晶体特性和缺陷表征
基于碲锌镉的探测器因其光谱分辨率高而备受推崇,这也是核医学成像的一个基本特征。然而,当 CdZnTec 晶体中存在大量缺陷时,这种分辨率就会大打折扣。在这项研究中,我们提出了一种基于学习的方法来确定半导体探测器中与空间相关的块体特性和缺陷。这种表征方法使我们能够减轻和补偿晶体杂质造成的不良影响。我们使用计算机生成的无噪声输入数据对我们的模型进行了测试,结果表明该模型具有极高的准确性,其预测值与实际晶体属性之间的平均 RMSE 为 0.43%。此外,我们还进行了敏感性分析,以确定噪声数据对模型准确性的影响。
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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