Fabrication and testing of antimony doped bismuth tri-iodide semiconductor gamma-ray detectors

We fabricated antimony (Sb) doped bismuth tri-iodide (BiI3) radiation detectors from large single crystals that were grown using the modified vertical Bridgman technique. Detectors were prepared by subjecting the crystal surfaces to different mechanical and chemical treatments. Surface quality of th...

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Bibliographic Details
Published in:Radiation measurements 2016-04, Vol.91 (C)
Main Authors: Gokhale, Sasmit S., Han, HyukSu, Pelaez, Oswaldo, Baciak, James E., Nino, Juan C., Jordan, Kelly A.
Format: Article
Language:English
Subjects:
Bismuth tri-iodide
INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY
Radiation detector
Room temperature semiconductor detector Gamma-ray detector
Surface treatment
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Summary:We fabricated antimony (Sb) doped bismuth tri-iodide (BiI3) radiation detectors from large single crystals that were grown using the modified vertical Bridgman technique. Detectors were prepared by subjecting the crystal surfaces to different mechanical and chemical treatments. Surface quality of the detectors was evaluated using optical microscopy. The influence of surface quality on detector performance was analyzed by measuring the leakage current for each of the detectors. The radiation response of the detectors was measured using an Americium (241Am) gamma-ray source at room temperature. The first successful use of BiI3 detectors for gamma-ray spectroscopy is reported here with energy resolution of 7.5% at 59.5 keV. The mobility-lifetime product for electrons was also estimated to be about 5.2 x 10-4 cm2/V.
ISSN:1350-4487
1879-0925