Abstract
Recent developments of large area avalanche photodiodes (APDs) and fast scintillators with high light yield offer unique advantages for imaging applications. To test possible scintillator-APD combinations, 3.7/spl times/3.7/spl times/12.0 mm/sup 3/ LGSO, EGO and LSO crystals were coupled to large area, low capacitance, round and rectangular APDs (5 mm diameter, 3/spl times/3 mm/sup 2/ and 5/spl times/5 mm/sup 2/, Hamamatsu, Japan). Light output, energy resolution and time resolution were compared. The light output of EGO was about 86% worse, of LGSO about 30% worse compared to LSO [100%]. The energy resolution at 511 keV was 13.8/spl plusmn/0.5% for LSO and 15.1/spl plusmn/0.5% for LGSO (FWHM). With EGO 16.9/spl plusmn/0.5% (FWHM) was measured at 662 keV. The coincident time resolution of two opposing single detectors was 2.7/spl plusmn/0.2 ns for LSO and 3.9/spl plusmn/0.2 ns for LGSO (FWHM). The chemical treatment of crystals showed an improved energy resolution compared to mechanically polishing of more than 1%, providing reduced cost and less processing time. An energy resolution of 10.7/spl plusmn/0.5% for LSO could be reached after chemical etching. With the new large area APDs, results similar to PMT readout could be achieved. The scintillation characteristic of LGSO makes this material a promising candidate for APD readout, although the performance was inferior to LSO.
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