Radiation stability of nanocomposite scintillators
Abstract
Radiation hardness of scintillating nanocomposites consisting of inorganic scintillating nanocrystalline powders dispersed in organic matrices was studied under electron, X-ray and {\gamma}-ray irradiation. Samples including pure press-compacted pellets of powder ZnO:Ga and YSO:Ce, and the nanocomposites of powder ZnO:Ga and YSO:Ce embedded in polystyrene matrix with different fillings were investigated. Effects of radiation on radioluminescence and other optical properties of studied materials were evaluated. Bright burn effect related to nanocrystalline powder scintillators was observed at lower doses. Radiation damage in nanocomposite materials is related to the formation of radicals in polystyrene matrix. Extent of radiation damage decreases with ZnO:Ga filling. Presented results show the importance of systematic and complex study of the radiation stability of composite scintillators.