Luminescence of phosphorus containing oxide materials: Crystalline SiO2‐Pand 3P2O5⋅7SiO2; CaO⋅P2O5; SrO⋅P2O5glasses

Luminescence of phosphate glasses such as CaO center dot P2O5 and SrO center dot P2O5 is compared with that of phosphorus doped crystalline -quartz and phosphosilicate glass with content 3P(2)O(5)center dot 7SiO(2). Water & OH groups are found by IR spectra in these materials. The spectrum of luminescence contains many bands in the range 1.5 -5.5 eV. The luminescence bands in UV range at 4.5-5 eV are similar in those materials. Decay duration in exponential approximation manifests a time constant about 37 ns. Also a component in mu s range was detected. PL band of mu s component is shifted to low energy with respect to that of similar to 37 ns component. This shift is about 0.6 eV. It is explained as singlet-triplet splitting of excited state. Below 14 K increase of luminescence kinetics duration in mu s range was observed and it was ascribed to zero magnetic field splitting of triplet excited state of the center. Yellow-red luminescence was induced by irradiation in phosphorus doped crystalline alpha-quartz, phosphosilicate glasses. The yellowl uminescence contains two bands at 600 and 740 nm. Their decay is similar under 193 nm laser and may be fitted with the first order fractal kinetics or stretched exponent. Thermally stimulated luminescence contains only band at 600 nm. The 248 nm laser excites luminescence at 740 nm according to intra center process with decay time constant about 4 ms at 9 K. Both type of luminescence UV and yellow were ascribed to different defects containing phosphorus. P-doped alpha-quartz sample heated to 550 co become opalescent. Ir spectra related to water & OH groups are changed. Photoluminescence intensity of all three bands, UV (250 nm), yellow (600 nm) and red (740 nm) strongly diminished and disappeared after heating to 660 C degrees. Radiation induced red luminescence of non-bridging oxygen luminescence center (NBO) appeared in crystal after heat treatment. We had observed a crystalline version of this center (l. Skuja et al, Nuclear Instruments and Methods in Physics Research B 286,159-168 (2012)). Effect of heat treatment explained as sedimentation of phosphorus in some state. Keeping of treated sample at 450-500 C degrees leads to partial revival of ability to create yellow luminescence center under irradiation.