Add time:08/12/2019         Source:sciencedirect.com

We have studied the phonon-induced non-radiative decay in erbium doped yttria (Y2O3). The technique employed allows for the evaluation of potential ceramic and crystalline laser materials. The frequency of the dominant phonon that deactivates the fluorescing levels and an approximate prediction of 0 K lifetime can be determined. Results show no significant quantitative difference between very large grain polycrystalline (with grain size ∼200–500 μm) ceramic, fine grain polycrystalline (with grain size ∼0.3 μm) ceramic and the precursor powder (with ∼30 nm particle size) of Er3+ doped Y2O3, when it comes to the dominant phonon frequency and the phonon occupancy number.The results show that a correct evaluation of the final product can be made in the precursor stage of the process eliminating the need to proceed to crystalline or fully sintered ceramic form to evaluate the spectroscopic properties of the material. It should be noted that the powders must be carefully prepared and handled. Adsorbed species such as water can drastically change the effective lifetimes observed in powder samples.

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