Title :
Depth identification accuracy of a three layer phoswich PET detector module
Author :
Seidel, J. ; Vaquero, J.J. ; Siegel, S. ; Gandler, W.R. ; Green, M.V.
Author_Institution :
Nucl. Med. Dept., Nat. Inst. of Health, Bethesda, MD, USA
fDate :
6/1/1999 12:00:00 AM
Abstract :
We describe a PET detector module that provides three levels of depth-of-interaction (DOI) information. The detector is a 9×9 array of 2 mm×2 mm×12 mm deep phoswich crystal elements, each consisting of 4 mm long LSO (entrance layer), GSO (middle layer) and BGO (exit layer) crystals joined optically together end-to-end. The BGO exit layer is directly coupled to a miniature position-sensitive photomultiplier tube (PSPMT). Delayed charge integration, a method that exploits differences in the light decay times of these scintillators, is used to determine the layer-of-interaction. DOI accuracy, measured by scanning a slit source of 511 keV radiation along the length of the module was 86% for the LSO layer, 80% for the GSO layer and 84% for the BGO layer. Energy resolution at 511 keV was 19% for LSO, 21% for GSO and 40% for BGO. Apparent gain differed between layers in the ratios 2.7:1.9:1.0 (LSO:GSO:BGO). Crystal separation was good between crystals in the LSO layer, acceptable between crystals in the GSO layer and poor between crystals in the BGO layer due, primarily, to the pronounced spatial nonlinearity of the PSPMT. The delayed charge integration method, however, does appear suitable for obtaining multi-level depth information when DOI effects are particularly significant, e.g. in very small ring diameter PET scanners for small animal imaging
Keywords :
biomedical equipment; gamma-ray detection; medical image processing; positron emission tomography; solid scintillation detectors; 511 keV; LSO/GSO/BGO layers; Lu2SiO5-Gd2SiO5-Bi 4Ge3O12; delayed charge integration; depth identification accuracy; depth-of-interaction information; energy resolution; miniature position-sensitive photomultiplier tube; phoswich PET detector module; positron emission tomography; small animal imaging; spatial nonlinearity; spectral resolution; three layer module; very small ring diameter PET scanners; Animals; Crystals; Delay effects; Detectors; Energy resolution; Length measurement; Optical arrays; Photomultipliers; Positron emission tomography; Sensor arrays;
Journal_Title :
Nuclear Science, IEEE Transactions on