An elongated position sensitive block detector design using the PMT quadrant-sharing configuration and asymmetric light partition

Although the photomultiplier-quactrant-sharing design introduced by our gro up for position sensitive detector blocks is very effective for reducing th e cost of a high resolution PET camera, a section of the photomultiplier's sensitive windows at the edge of the block array remains unused. An elongat ed, asymmetrically offset position-sensitive detector block has been develo ped to utilize this unused area of the PMTs window. The block design employ ed asymmetric light partitions to achieve an evenly distributed two-dimensi onal position-decoding map. The block was divided into 7x8 elements. For th is study, the dimensions of each detector element were 2.66 x 3.05 mm with a depth of 18 mm. This detector design is applicable to any camera using th e PMT quadrant-sharing detector design, such as the Variable Field Prototyp e PET Camera developed at M. D. Anderson Cancer Center (MDAPET) and the Sie mens/CTI LSO cameras. A second improvement incorporated into the detector d esign was the replacement of the saw-cut grooves in the detector blocks by painted masks. The application of the present block design to a clinical hi gh resolution camera expands the axial field-of-view, which, when combined with the gapless block design used in this study, increases the coincidence detection efficiency of the camera by factor of about 2.9 in 3-D data acqu isition.