Abstract
The results of a feasibility study for a high-resolution PET detector system are presented. The detector is based on the use of etched LSO scintillation crystals viewed from just one end. The authors have demonstrated that this configuration yields Depth-of-Interaction (DOI) information whilst also preserving good energy and coincidence-time resolution. A prototype detector was built using a 4/spl times/4 crystal array coupled to 61-pixel hybrid photodiodes. The measurements demonstrate a DOI resolution of 5/spl sim/7 mm FWHM in a 30 mm deep detector. The signal level was measured to be in the range 250 to 600 photoelectrons depending on the location of the 511 keV energy deposit in the crystal. A resolving-time of less than 5 ns FWHM was estimated based on indirect measurements. The technique depends on the assumption that all of the events detected above a selected threshold value are, in fact, full-energy deposits. The validity of this assumption and the impact of the photons scattered in the object have been studied using a Monte Carlo simulation of the proposed small animal PET imager.
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