Investigation of position sensitive avalanche photodiodes for a new high-resolution PET detector design

Investigation of position sensitive avalanche photodiodes for a new high-resolution PET detector design

We are developing a high-resolution PET detector design with a goal of nearly complete scintillation light collection in /spl les/1 mm width, /spl ges/20 mm effective thickness LSO crystals. The design uses position sensitive avalanche photodiodes in novel layered configurations that significantly i...

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Bibliographic Details
Published in:IEEE transactions on nuclear science 2004-06, Vol.51 (3), p.805-810
Main Authors: Levin, C.S., Foudray, A.M.K., Olcott, P.D., Habte, F.
Format: Article
Language:eng
Subjects:
Avalanche photodiodes
Crystals
Dynamic range
Energy measurement
Energy resolution
Image resolution
Position sensitive particle detectors
Positron emission tomography
Solid scintillation detectors
Time measurement
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Summary:We are developing a high-resolution PET detector design with a goal of nearly complete scintillation light collection in /spl les/1 mm width, /spl ges/20 mm effective thickness LSO crystals. The design uses position sensitive avalanche photodiodes in novel layered configurations that significantly improve the light collection aspect ratio. To reduce design complexity and dead area we are investigating the use of 1 mm thick sheets of LSO in addition to discrete crystal rods, and the use of PSAPDs which require only four readout channels per device. The raw spatial response of a 1 mm thick crystal sheet coupled to a PSAPD exhibits a compressed dynamic range compared to that observed with discrete crystals. Measurements with the proposed configurations using /sup 22/Na irradiation achieved 10%-13% FWHM energy resolution at 511 keV and 2 ns coincidence time resolution. 1 mm width crystals with a saw cut surface finish an no inter-crystal reflector were well resolved in flood images.
ISSN:0018-9499
1558-1578