Thallium lead iodide radiation detectors

2002 IEEE Nuclear Science Symposium Conference Record Pub Date : 2002-11-10 DOI:10.1109/NSSMIC.2002.1239360

K. Hitomi, T. Onodera, T. Shoji, Y. Hiratate

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引用次数: 13

Abstract

Thallium lead iodide (TlPbI/sub 3/) is a compound semiconductor characterized with wide band gap (2.3 eV) and high photon stopping power. Thus, TlPbI/sub 3/ is an attractive material for fabrication of room temperature radiation detectors. In this study, TlPbI/sub 3/ crystals were grown by the vertical Bridgman technique using zone-purified materials. The starting materials for the crystal growth were synthesized from commercially available TlI and PbI/sub 2/ powders with nominal purity of 99.99%. Powder X-ray diffraction analysis was performed to evaluate chemical composition of the synthesized TlPbI/sub 3/. In order to fabricate radiation detectors, the grown crystals were cut into several wafers using a wire saw. The wafers were then polished using Al/sub 2/O/sub 3/ abrasives. Electrodes were formed on the wafers by vacuum evaporation of gold. The resultant TlPbI/sub 3/ radiation detectors were evaluated by measuring their current-voltage characteristics and spectral responses. Most of TlPbI/sub 3/ detectors exhibited resistivities more than 10/sup 11/ /spl Omega/cm. The TlPbI/sub 3/ detectors were irradiated with /spl alpha/-particles (5.48 MeV) from a /sup 241/Am source or /spl gamma/-rays (662 keV) from a /sup 137/Cs source. The TlPbI/sub 3/ detectors exhibited a clear peak of 5.48 MeV /spl alpha/-particles. Although the 662 keV peak was not resolved in the energy spectra, increased counts above the noise spectrum were observed for the detectors. To our knowledge, it is the first time that TlPbI/sub 3/ detectors exhibit /spl alpha/-particle spectra with a clear peak and /spl gamma/-ray spectra.

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碘化铊铅辐射探测器

碘化铊铅(TlPbI/ sub3 /)是一种具有宽禁带(2.3 eV)和高光子阻挡能力的化合物半导体。因此，TlPbI/sub 3/是制造室温辐射探测器的理想材料。在本研究中，使用区域纯化材料，采用垂直Bridgman技术生长了TlPbI/sub - 3/晶体。晶体生长的起始材料是由市售的TlI和PbI/sub 2/粉末合成的，其标称纯度为99.99%。对合成的TlPbI/sub - 3/进行了粉末x射线衍射分析。为了制造辐射探测器，用钢丝锯把生长的晶体切成几片晶圆。然后使用Al/sub 2/O/sub 3/磨料对晶圆进行抛光。通过真空蒸发金在晶圆上形成电极。通过测量其电流-电压特性和光谱响应来评价所得到的TlPbI/sub - 3/辐射探测器。大多数TlPbI/sub - 3/探测器的电阻率大于10/sup 11/ spl ω /cm。用/sup 241/Am源的/spl α /-粒子(5.48 MeV)和/sup 137/Cs源的/spl γ /-射线(662 keV)照射TlPbI/sub - 3/探测器。TlPbI/ sub3 /探测器显示出5.48 MeV /spl α /-粒子的清晰峰值。虽然662 keV的峰值在能谱中没有被分辨出来，但在噪声谱上观察到探测器的计数增加。据我们所知，这是TlPbI/ sub3 /探测器首次表现出具有清晰峰的/spl α /-粒子光谱和/spl γ /-射线光谱。

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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2002 IEEE Nuclear Science Symposium Conference Record

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