R. Pani et al., MULTICRYSTAL YAP-CE DETECTOR SYSTEM FOR POSITION-SENSITIVE MEASUREMENTS, Nuclear instruments & methods in physics research. Section A, Accelerators, spectrometers, detectors and associated equipment, 348(2-3), 1994, pp. 551-558
Yttrium aluminum perovskite (YAP:Ce) scintillation crystal has a light
efficiency of about 40% relative to NaI. Because of the yttrium atomi
c number (Z = 39) and the relatively high density (5.37 g/cm3) it has
a good gamma-ray absorption. Furthermore it is not hygroscopic and is
inert. Its peculiarity consists of material processing that provides u
s with crystal pillars down to 0.3 x 0.3 mm2 aperture size and up to s
ome centimeters in length. An array consisting of 11 x 22 YAP:Ce eleme
nts was made where each crystal has an aperture of 0.6 x 0.6 mm2 and a
length of 7 mm. Each scintillation crystal is optically separated by
a reflective material resulting in a separation layer between elements
of about 5 mum. The multicrystal detector was optically coupled to a
Hamamatsu Position Sensitive Photomultiplier Tube (R2486). The intrins
ic spatial resolution of the PSPMT is better than 0.3 mm but it is str
ongly dependent on the Point Spread Function (PSF) generated on the ph
otocathode. The multicrystal detector very well matched the PSPMT char
acteristics resulting in a spatial resolution of about 0.7 mm at 140 k
eV (Tc-99m) gamma irradiation.