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Vanadium in yttrium aluminum garnet: charge states and localization in the lattice (1812.11877v1)

Published 31 Dec 2018 in cond-mat.mtrl-sci

Abstract: Vanadium ions charge states and their incorporation in the yttrium aluminum garnet Y3Al5O12 (YAG) lattice were studied by the correlated optical absorption and electron paramagnetic resonance (EPR) measurements. In as-grown crystals, the occupation of the V3+ at both the octahedral and tetrahedral aluminum sites was proven. The V3+ to V4+ charge transformation was observed after annealing in air, whereas annealing in the hydrogen atmosphere resulted exclusively in a slight weakening of the V3+ absorption bands due to partial recharge of these ions. Spin Hamiltonian parameters of the V3+ and V4+ ions at the tetrahedral sites including the zero field splitting and the 51V hyperfine constants have been determined using the high-frequency, up to 300 GHz, EPR measurements. From the analysis of the spin Hamiltonian parameters in the framework of the crystal field theory, the ground state energy levels splitting of the V3+ and V4+ ions were calculated. The charge distribution over the tetrahedral V3+ and its nearest oxygen surroundings was found to be strongly inhomogeneous whereas the tetrahedral V4+ ion concentrated the charge with very weak participation of surrounding ligands. Furthermore, the correlation of the optical and EPR data allowed the proper assignment of the optical absorption peaks in YAG:V crystals.

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