TOWARD A NUCLEAR-MEDICINE WITH SUB-MILLIMITER SPATIAL-RESOLUTION

The HIRESPET Collaboration is developing a new concept of a gamma came ra with sub-millimiter spatial resolution. The first prototype consist s of a small field size gamma camera based on a Position Sensitive Pho to-Multiplier Tube (PSPMT) coupled to a novel scintillation crystal, T he intrinsic spatial resolution of the PSPMT is better than 0.3 mm. Th e scintillation crystal consists of yttrium aluminium perovskit (YAP:C e), It has a light efficiency of about 40% relative to NaI, a good gam ma radiation absorption (Z = 39) and a high density (5.37 g/cm(3)). It is inert and not hygroscopic. To match the PSPMT characteristics, a s pecial crystal assembly has been made consisting of a bundle of YAP pi llars, where a single crystal has the transversal dimension of 0.6 X 0 .6 mm(2) and a thickness ranging between 1 mm and 28 mm. Each scintill ation pillar is optically separated from the other by a reflective lay er of 5 mu m thick. The preliminary results obtained from the gamma ca mera prototype (YAP camera) show spatial resolution values ranging bet ween 0.6 mm and 1 mm and an intrinsic detection efficiency comparable with a standard Anger camera.