Abstract
The pure and trivalent rare-earth ions doped lead tungstate crystals have been grown using Czochralski method. Optical absorption measurements in the wavelength range of 200–800 nm have been carried out on the doped PbWO 4 crystals. Trivalent rare-earth ions doping have a threshold effects on the optical absorption band gap of PbWO 4 crystals. Compared to that of pure PbWO 4, the optical absorption edge of La 3+-doped samples at lower in low concentration (50 and 150 ppm), show the shift of to high energy region (short wavelength), while with increasing of La 3+ doping, the optical absorption edge shift fast to low energy region (long wavelength). Raman spectra have been investigated in a series of lead tungstate crystals doped with La 3+ ions. The data were compared with the results in undoped PbWO 4 and a (Mo, F)-doped sample. The dependence of frequency shift on doping was employed to deduce and approve the doping mechanism of rare-earth ions in PbWO 4 lattice. The effects of La 3+ doping on the photoluminescence spectra were also investigated.
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