Materials (Jul 2024)
Structure and Spectral Properties of Er<sup>3+</sup>-Doped Bismuth Telluride Near-Infrared Laser Glasses
Abstract
TeO2-Bi2O3-B2O3-ZnO laser glasses doped with Er3+ were synthesized through an optimized melt-quenching method. The absorption spectra at 808 nm LD pumping were studied. Various spectral tests and data analyses indicate that the maximum fluorescence emission intensity can be obtained when the Er3+ doping concentration reaches 2%. In this case, the emission cross-section can reach up to 9.12 × 10−21 cm2 and the gain coefficient at 1.55 μm is 6.17 cm−1. Simultaneously, the sample has a lower phonon energy in the high-frequency band at 1077 cm−1, which reduces the probability of non-radiative relaxation. The calculated energy transfer coefficient CD-A is 13.8 × 10−40 cm6/s, reflecting the high cross-relaxation probability of Er3+ in the sample, which promotes the luminescence of 1.55 μm and favors the emission in the near-infrared region. The comprehensive results demonstrate that the prepared Er3+-doped bismuth telluride laser glass can be used as a promising and high-quality gain material for near-infrared lasers.
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