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Two-Step Annealing to Remove Te Secondary-Phase Defects in CdZnTe While Preserving the High Electrical Resistivity

Authors
Kim, KihyunHwang, SeokjinYu, HwangseungChoi, YoonseokYoon, YongsuBolotnikov, Aleksey E.James, Ralph B.
Issue Date
8월-2018
Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
Keywords
CdZnTe (CZT); high resistivity; pulse-height spectra; real-time monitoring; two-step annealing
Citation
IEEE TRANSACTIONS ON NUCLEAR SCIENCE, v.65, no.8, pp.2333 - 2337
Indexed
SCIE
SCOPUS
Journal Title
IEEE TRANSACTIONS ON NUCLEAR SCIENCE
Volume
65
Number
8
Start Page
2333
End Page
2337
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/73886
DOI
10.1109/TNS.2018.2856805
ISSN
0018-9499
Abstract
The presence of Te secondary-phase defects (i.e., Te inclusions and Te precipitates) is a major factor limiting the performance of CdZnTe (CZT) X-ray and gamma-ray radiation detectors. We find that Te secondary-phase defects in CZT crystals can be removed through postgrowth two-step annealing without creating new trapping centers (i.e., prismatic punching defects). Two-step annealing (with the first under a Cd pressure and the second one under a Te pressure) was demonstrated to he effective in removing the Te secondary-phase defects, while preserving the electrical resistivity of the CZT detector. The first step involves annealing of semi-insulating CZT under a Cd overpressure at 700 degrees C/600 degrees C (CZT/Cd) for 24 h, which completely eliminated the Te-rich secondary-phase defects (Te inclusions). However, it resulted in a lower resistivity of the samples (down to 2 x 10(4-6) Omega . cm). A subsequent annealing step involves processing CZT under a Te ambient condition at 540 degrees C/380 degrees C (CZT/Te) for 120 h, which restored the crystal's resistivity to 6.4 x 10(10 )Omega . cm without creating new Te secondary-phase defects. However, Te inclusions reappeared in the case of unnecessarily long Te ambient annealing. Pulse-height spectra taken with the two-step annealed CZT detectors showed an improved detector performance clue to a reduced concentration and the size of Te secondary-phase defects.
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