Luminescence of Y3AL5O12 nano-particles doped with praseodymium ions

Abstract

We have investigated the spectroscopic properties of the praseodymium ion in a Y3Al5O12 (YAG) nano-powder with an average particle size of 58nm as function of temperature between 29K and 300K. The luminescence spectra were obtained by exciting selectively the sample at 460 and 609nm, resulting in the excitation of the 3P0 and 1D2 levels, respectively. With excitation in the 3P0 level, emissions from this level and from the 1D2 level were observed. Time resolved spectra and decay pattern inspection were used to assign spectral lines to specific radiative transitions. With excitation of the 1D2 level, luminescence emitted by the same level and up-converted emission from the 3P0 level were observed.We have compared the spectral characteristics of the nano-particles with those of a YAG crystal doped with the same ion. We have uncovered differences in the dependence of the lifetime on temperature, widths of the spectral lines, shapes of the decay patterns following pulsed excitation, and mechanism of up-conversion. We present a model that emerges from our measurements and that explains the difference in the behavior of the crystal and of the nano-particles.