Luminescence properties of Nd³⁺ ions doped P₂O₅-Li₂O₃-GdF₃ glasses for laser applications

The phosphate glass doped with Nd³⁺ ions, is a recognized high gain laser material due to better spectroscopic properties. In present study, the luminescent properties of Nd³⁺ doped lithium-gadolinium phosphate glasses were investigated. The compactness of the glass matrix believed to increase with increasing concentration of Nd₂O₃ contents, because the density of the samples also increases in same fashion. Furthermore, the emission spectra monitor after 804 nm excitation show three emission peaks at 874, 1065 and 1333 nm. In the present work maximum emission intensity recorded for 1 mol% of Nd₂O₃ and above 1 mol% the emission intensity decrease. The Judd-Ofelt (JO) theory applied to calculate the JO intensity parameters (Ω_{2, 4, 6}), oscillator strength for absorption spectra, several radiative properties for the prepared glasses. The calculated JO intensity parameters show the Ω₄ > Ω₆> Ω₂ trend which indicate rigid nature of the present glasses. The radiative transition probability, stimulated emission cross section and branching ratio show higher values for ⁴F_3/2→⁴I_11/2 transition. From properties evaluated in the present work it is concluded that the glass doped with 1.0 mol% Nd₂O₃ can be a potential candidate for laser applications.