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- Title
Raman spectroscopy study of compositional inhomogeneity in lithium tantalate crystals.
- Authors
Kostritskii, S. M.; Aillerie, M.; Bourson, P.; Kip, D.
- Abstract
Raman spectra of LiTaO3 single crystals with various stoichiometries were measured to investigate the compositional uniformity of these crystals. Raman spectra mapping demonstrates a spatial variation of the widths of the phonon bands for stoichiometric, congruent, and quasi-congruent samples. A significant radial compositional inhomogeneity is found to be a common feature of commercially available wafers having a near-congruent crystal composition (i.e., x c={[Li2O]/([Li2O]+[Ta2O5])}×100%=47.85–48.50%) grown by the single-crucible Czochralski method. A maximum value of the composition gradient ∇ x c for a radial inhomogeneity of 0.163 and 0.036%/cm is measured for thin wafers diced from so-called congruent (vendors’ value of x c=48.50%) and quasi-congruent ( x c=47.88%) crystals, respectively. In crystals grown from highly Li-rich melts (starting composition 54.5 mol% Li2O), a drastic spatial dependence of Raman bandwidths, indicating a significant gradual compositional inhomogeneity throughout the crystal, is found, which is due to a change of the melt composition during crystal growth. In contrast, the Raman bandwidths of near-stoichiometric crystals fabricated by a vapor transport equilibrium (VTE) technique are found to be constant, i.e. these crystals are practically compositionally uniform. This conclusion has been confirmed by mapping the photoluminescence intensity, evidencing ∇ x c≤0.006%/cm in near-stoichiometric VTE-treated crystals.
- Subjects
RAMAN effect; INHOMOGENEOUS materials; LITHIUM tantalate; CRYSTALS; PHONONS
- Publication
Applied Physics B: Lasers & Optics, 2009, Vol 95, Issue 1, p125
- ISSN
0946-2171
- Publication type
Article
- DOI
10.1007/s00340-009-3442-y