Abstract
Erbium-doped tellurite glasses (TeO 2–ZnO–Na 2O 3: Er 3+ (TZNE)) were elaborated from the melt-quenching method. Various spectroscopic parameters were obtained to evaluate their dependence and the potential of the samples as a laser material in the eye-safe laser wavelength (1.53 μm) as a function of the Er 3+ concentration. The dependence of infrared photoluminescence (PL) spectra on doping concentration shows a quenching of the PL intensity for Er 3+ concentration above 2 mol%. Such dependence is discussed in terms of interactions between Er 3+ ions and OH − content. FTIR spectra were measured in order to calculate the exact content of OH − groups in samples. It was found that PL quenching with Er concentration in the tellurite glass is independent of OH − content. Stimulated cross-section at 1.53 μm was determined and was discussed using the McCumber theory.
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