Abstract

Crystal-growth defects and impurities are among the key factors limiting the performance of fluorine-based optical materials. This study reports the local structure of an oxygen impurity centre in LiYF4 single-crystal. Experimental electron paramagnetic resonance (EPR) and electron-nuclear double resonance (ENDOR) spectroscopy investigations were combined with first principle theoretical modelling to elucidate the defect structure. It was determined that, after irradiation with X-rays, an electron spin S=1/2 paramagnetic centre is generated. It is stable at room temperature and anneals above 150°C. The alignment of the g-tensor and magnitudes of hyperfine interactions suggest that the centre is an oxygen impurity and fluorine vacancy complex. Highly anisotropic hyperfine interaction with three fluorine atoms within 3 Å of the oxygen defect is observed. The results provide novel insights into oxygen ion incorporation in LiYF4 and are crucial to understanding and minimising radiation-induced degradation of the material.

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