The origin of the centres responsible for the green emission, the processes of their excited-state disintegration, and the origin of defects created by UV radiation were studied for PbWO4 crystals with different Mo6+ concentrations, as well as for the Y3+ and Nb5+ co-doped PbWO4:Mo. After the selective UV irradiation, TSL appeared to be due to the recombination of defects formed after the exciton and defect-related state disintegration. The TSL intensity versus irradiation energy (3.4-4.3 eV) and irradiation temperature (80-180 K) were measured. For the exciton state disintegration, the activation energy was Ea ? 0.1 eV, while for the defect states disintegration Ea = 0.03-0.36 eV. At T<130 K, temperature-independent defect creation processes were observed in some crystals. Defects of different origins exist in PbWO4:Mo crystals, and different defects can coexist in the same sample. Free electron release into the conduction band and also charge transfer processes can contribute to photo-thermally stimulated defects creation.
Defects in UV-irradiated PbwO4:Mo crystals monitored by TSL measurements
P Fabeni;GP Pazzi;C Susini;
2005
Abstract
The origin of the centres responsible for the green emission, the processes of their excited-state disintegration, and the origin of defects created by UV radiation were studied for PbWO4 crystals with different Mo6+ concentrations, as well as for the Y3+ and Nb5+ co-doped PbWO4:Mo. After the selective UV irradiation, TSL appeared to be due to the recombination of defects formed after the exciton and defect-related state disintegration. The TSL intensity versus irradiation energy (3.4-4.3 eV) and irradiation temperature (80-180 K) were measured. For the exciton state disintegration, the activation energy was Ea ? 0.1 eV, while for the defect states disintegration Ea = 0.03-0.36 eV. At T<130 K, temperature-independent defect creation processes were observed in some crystals. Defects of different origins exist in PbWO4:Mo crystals, and different defects can coexist in the same sample. Free electron release into the conduction band and also charge transfer processes can contribute to photo-thermally stimulated defects creation.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.