Abstract
Under 635 nm laser excitation, the 3.5 μm luminescence, corresponding to the Er3+: 4F9/2 → 4I9/2 radiation transition, was demonstrated in Er3+ doped fluoroindate glasses prepared by melt-quenching method. The energy transfer mechanisms were investigated and the 3.5 μm emission intensity reached a maximum for an Er3+ concentration of 9 mol%. The Er3+ energy level lifetimes in fluoroindate glass samples were measured, their oscillator strength parameters were calculated by Judd-Ofelt theory and their emission cross-section at 3.5 μm was obtained. The maximum emission cross-section at 3.51 μm was 4.86 × 10−22 cm2, which indicated that Er3+ doped fluoroindate glass is a potential gain medium for lasing at 3.5 μm.
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