TeO2-BaO-Bi2O3 tellurite optical glasses II. -- Linear and non-linear optical and magneto-optical properties

Abstract

The present study investigates the linear and non-linear optical and magneto-optical properties of TeO2-BaO-Bi2O3 (TeBaBi) glasses prepared by the conventional melt-quenching technique at 900 C. Prepared glass composition ranges across the whole glass-forming-ability (GFA) region focusing on mutual substitution trends of constituent oxides, where TeO2: 55-85 mol.%, BaO: 10-35 mol.%, Bi2O3: 5-15 mol.%. Studied glasses exhibit high values of linear (n632 ≈ 1.922-2.084) and non-linear refractive index (n2≈1.63-3.45×10-11 esu), Verdet constant (V632 ≈ 26.7-45.3 radT-1m-1) and optical band gap energy (Eg ≈ 3.1-3.6 eV). The introduction of TeO2 and Bi2O3 results in increase of both linear/non-linear refractive index and Verdet constant, with a more pronounced influence of Bi2O3. Measured spectral dispersion of refractive index and Verdet constant were used for estimation of magneto-optic anomaly parameter (γ ≈ 0.71-0.92), which may be used for theoretical modelling of magneto-optic response in diamagnetic TeBaBi glasses. Additionally, the properties of the prepared TeBaBi glasses were directly compared to those of the TeO2-ZnO-BaO glass system, which was prepared and characterized under similar experimental conditions. The compositional dependence of the refractive index in both glass systems was described using multilinear regression analysis, demonstrating high correlation and uniformity of estimation across the entire GFA region. This makes them highly promising for precise dispersion engineering and construction of optical devices operating from visible to mid-infrared spectral region.