Spatial variation of energy resolution in 3-D position sensitive CZT gamma-ray spectrometers

This paper reports the energy resolutions obtained from two 3-D CZT /spl gamma/-ray spectrometers. Each device is a 1 cm/sup 3/ cube CZT crystal with an 11/spl times/11 pixellated anode. For single-interaction events in the detector, the gamma ray interaction location can be determined in 3-D. With...

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Bibliographic Details
Published in:IEEE transactions on nuclear science 1999-06, Vol.46 (3), p.187-192
Main Authors: Li, W., He, Z., Knoll, G.F., Wehe, D.K., Stahle, C.M.
Format: Article
Language:English
Subjects:
Aerospace engineering
Anodes
Cathodes
Crystals
CZT
Degradation
Detectors
Devices
Electron traps
Electronics
Energy resolution
Event detection
Signal processing
Spectra
Spectrometers
Spectroscopy
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Summary:This paper reports the energy resolutions obtained from two 3-D CZT /spl gamma/-ray spectrometers. Each device is a 1 cm/sup 3/ cube CZT crystal with an 11/spl times/11 pixellated anode. For single-interaction events in the detector, the gamma ray interaction location can be determined in 3-D. With the volume of each detector conceptually divided into 11/spl times/11/spl times/18 voxels, the spectra of single-interaction events from each of the voxels were collected. The energy resolutions at 662 keV from a single voxel are typically 9.3 keV and 9.9 keV for the two detectors, with electronic noise contributing /spl sim/7 keV and /spl sim/6 keV respectively. A spatially-varying energy resolution has been observed for both detectors, which accounts for the degradation of energy resolution of the overall spectrum combined from all the voxels. The causes for the variations have been analyzed, and the impact of a spatially-varying energy resolution on a CZT gamma-ray spectrometer has been investigated.
ISSN:0018-9499
1558-1578
DOI:10.1109/23.775512