Abstract

Terbium spectroscopy is used to probe clustering of rare earth (RE) ions in sol–gel glasses. We use pulsed laser experiments to study energy transfer among Tb 3+ dopants, and analyze the fluorescence decay curves using the Inokuti–Hirayama model. The analysis yields new insights about the role of Al 3+ co-doping. Assuming a multipolar interaction, we derive an effective Tb 3+ concentration for a series of samples with varying amounts of RE. When actual doping concentration is varied over 2 orders of magnitude, the effective Tb 3+ concentration of centers that emit light changes by only a factor of 10. The results indicate that Al 3+ co-doping is only effective at dispersing RE ions when the ratio of Al:RE is 10:1 or greater. At higher RE concentrations, most ions reside in clusters; 5D 3 fluorescence is observed from a minority of isolated ions. This interpretation contradicts earlier work that used fluorescence line narrowing to demonstrate that Al 3+ co-doping caused RE dispersal at high doping levels.

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