Abstract
Glasses in the TeO2PbO·P2O5PbF2:0.5EuF3 system are obtained. The structure, crystallization and luminescent properties are discussed by data of Raman spectroscopy, mainly. It has been demonstrated that a glass network composed of mixed tellurite and phosphate polyhedra is formed in the glasses. Lead difluoride renders a modifying effect on the structure of the glass network at large, i.e., both tellurite and phosphate groups. It has been shown that at the initial stages of the crystallization of the 42.5TeO232.5PbO·P2O525PbF2:0.5EuF3 glass the phosphate phases (Pb3(PO4)2) enter into the crystallites. The destruction of the glass network is a partial. The tellurite groups are driven back into the residual glass. At the scattering excitation by a laser with the wavelength λ0=532nm the Eu3+ luminescence corresponding to the emission levels 578, 585, 590, and 612nm was revealed in glass of the composition 42.5TeO232.5PbO·P2O525PbF2:0.5EuF3. The glass crystallization affects the luminescence.
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