Preparation and optical properties of transparent glass-ceramics containing β-PbF2:Tm3+

Abstract

Transparent glass ceramics containing β‐PbF₂:Tm³⁺ crystallites have been prepared by heat treatment of glasses in GeO₂‐PbO‐PbF₂‐TmF₃ system. Average crystallite size of β‐PbF₂ evaluated from the full width at half maximum of x‐ray diffraction lines varies from about 16 to 20 nm as the heat treatment temperature increases from 340 to 400 °C when 50GeO₂⋅40PbO⋅10PbF₂⋅1TmF₃ glass is heat treated. The glass ceramics containing β‐PbF₂:Tm³⁺ of 16 nm is transparent in the visible region. The incorporation of Tm³⁺ into β‐PbF₂ crystalline phase has been demonstrated from the linewidth and peak position of optical absorption spectrum. Frequency upconversion fluorescence has been observed for the transparent glass ceramics at room temperature. The upconversion fluorescence intensities due to the ¹D₂→³H₆ and ¹D₂→³F₄ transitions are higher for the transparent glass ceramics than for the glass. This phenomenon is explainable by assuming that the multiphonon relaxation rate of the ³H₄ state is smaller in the glass ceramics than in the glass.