ESR and TSL study of hole capture in PbWO4:Mo,La and PbWO4:Mo,Y scintillator crystals

Abstract

The processes of hole localization in double-doped PbWO4:Mo,La and PbWO4:Mo,Y single crystals have been studied by continuous wave and pulse electron spin resonance (ESR) and thermally stimulated luminescence (TSL) methods. We show that the holes created by the UV irradiation are preferably trapped at lattice oxygen ions in the vicinity of perturbing defects such as lead vacancies, impurity ions (La, Y, Mo), and other lattice imperfections. This leads to a variety of O- centers, which differ both by thermal stability (from about 170 K up to 240 K) and ESR parameters. The hole centers of this type were not observed neither in PbWO4:Mo nor in PbWO4:La(Y) crystals. The recombination processes of thermally released holes with electrons stored at different traps, including Pb+ - WO3 and (MoO4)3- centers, are systematically studied by TSL. Thermal stability parameters are defined by ESR and TSL techniques for different O- type defects.