Development of Large area Gamma-ray Camera with GSO(Ce) Scintillator Arrays and PSPMTs
Abstract
We have developed a position-sensitive scintillation camera with a large area absorber for use as an advanced Compton gamma-ray camera. At first we tested GSO(Ce) crystals. We compared light output from the GSO(Ce) crystals under various conditions: the method of surface polishing, the concentration of Ce, and co-doping Zr. As a result, we chose the GSO(Ce) crystals doped with only 0.5 mol% Ce, and its surface polished by chemical etching as the scintillator of our camera. We also made a 16×16 cm2 scintillation camera which consisted of 9 position-sensitive PMTs (PSPMTs Hamamatsu flat-panel H8500), the each of which had 8×8 anodes with a pitch of 6 mm and coupled to 8×8 arrays of pixelated 6×6×13 mm3 GSO(Ce) scintillators. For the readout system of the 576 anodes of the PMTs, we used chained resistors to reduce the number of readout channels down to 48 to reduce power consumption. The camera has a position resolution of less than 6mm and a typical energy resolution of 10.5% (FWHM) at 662 keV at each pixel in a large area of 16×16 cm2. %to choose the best scintillator for our project. Furthermore we constructed a 16×16 array of 3×3×13 mm3 pixelated GSO(Ce) scintillators, and glued it to a PMT H8500. This camera had the position resolution of less than 3mm, over an area of 5×5 cm2, except for some of the edge pixels; the energy resolution was typically 13% (FWHM) at 662 keV.
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