On the use of tapered bismuth germanate crystals in positron emission tomography

Abstract

An analytical model of gamma ray transport within the detectors of a positron camera, based on exponential absorption, has been developed and verified experimentally. The model has been used to study the intrinsic resolution obtained with scintillation detectors that have had their front corners removed. It is concluded that for crystals greater than 0.8 cm wide, tapering the face of the detector results in improved uniformity of resolution. Thus it is useful for medium and low resolution scanners. In these cases, it has been found that the loss in sensitivity resulting from the use of tapered crystals is less than that which occurs when septa are placed between crystals to achieve comparable uniformity of resolution. It has also been established that, in some instances, reducing the length of the detectors results in a more uniform resolution than that obtained with tapered crystals, although this leads to a loss in ring sensitivity and an increase in the detected scatter fraction.