New results on high-resolution 3-D CZT drift strip detectors

L. Abbene, F. Principato, G. Gerardi, A. Buttacavoli, S. Altieri, C. Gong, N. Protti, M. Bettelli, N. S. Amadè, S. Zanettini, A. Zappettini, N. Auricchio, S. del Sordo, E. Caroli
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引用次数: 2

Abstract

Intense research activities have been carry out in the development of room temperature gamma ray spectroscopic imagers, aiming to compete with the excellent energy resolution of high-purity germanium (HPGe) detectors (0.3 % FWHM at 662 keV) obtained after cryogenic cooling. Cadmium-zinc-telluride (CZT) detectors equipped with pixel, strip and virtual Frisch-grid electrode structures represented an appealing solution for room temperature measurements. In this work, we present the performance of new high-resolution CZT drift strip detectors (19.4 x 19.4 x 6 mm3), recently fabricated at IMEM-CNR of Parma (Italy) in collaboration with due2lab company (Reggio Emilia, Italy). The detectors, working in planar transverse field (PTF) irradiation geometry, are able to perform 3D positioning and energy measurement of X rays and gamma rays: 2D positioning through cross-strip electrode patterns on the cathode/anode electrodes and the third coordinate by exploiting the C/A ratio and/or the drift time. A 32-channel digital electronics was used to process and analyze the zoo of collected/induced charge pulses from the strips. Excellent room temperature energy resolution (0.9 % FWHM at 662 keV)characterizes the detectors, after the application of a new correction technique. These activities follow the goals of two Italian research projects (3DCaTM and 3CaTS projects funded by ASI and INFN, respectively) on the development of spectroscopic X-ray and gamma ray imagers (10 keV-1MeV) for medical and astrophysical applications.
高分辨率三维CZT漂移条带探测器的新结果
为了与低温冷却后获得的高纯锗(HPGe)探测器(662 keV时0.3% FWHM)的优异能量分辨率相竞争,在室温伽马能谱成像仪的开发方面开展了大量的研究活动。配备像素、条带和虚拟Frisch-grid电极结构的碲化镉锌(CZT)探测器代表了一种具有吸引力的室温测量解决方案。在这项工作中,我们介绍了新的高分辨率CZT漂移条探测器(19.4 x 19.4 x 6 mm3)的性能,该探测器最近在意大利帕尔马的IMEM-CNR与due2lab公司(意大利雷焦艾米利亚)合作制造。该探测器工作在平面横向场(PTF)辐照几何结构中,能够对X射线和伽马射线进行三维定位和能量测量;通过阴极/阳极电极上的交叉带电极图案进行二维定位;通过利用C/A比和/或漂移时间进行第三坐标定位。利用32通道数字电子学处理和分析了从条带中收集/感应的电荷脉冲。在应用了一种新的校正技术后,探测器具有优异的室温能量分辨率(662 keV时0.9 % FWHM)。这些活动遵循两个意大利研究项目(分别由ASI和INFN资助的3DCaTM和3CaTS项目)的目标,即开发用于医疗和天体物理应用的光谱x射线和伽马射线成像仪(10kv - 1mev)。
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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