The elastic constants and acoustic symmetry of LiYF4

Abstract

The elastic behaviour of the scheelite-structure, laser host crystal LiHF₄, determined from ultrasonic measurements of the seven adiabatic elastic stiffness moduli C_ijkl between 4.2 and 293K, is expressed in terms of the acoustic symmetry which occurs in such TII Laue crystals. To establish the sense of the Z axis with respect to the interatomic arrangement and the setting angle ( phi _s=+29 degrees ) of the fluorine ion tetrahedron, the positions of the fluorine atoms have been determined by X-ray methods. The signs of C₁₆ and S₁₆ and the sense of rotation in the XY plane about the Z axis of the acoustic symmetry axes are established. The kappa and gamma axes of the acoustic symmetry are used together with the +Z axis as a basis for a set of transformed elastic stiffness constants C'_ijkl. The elastic behaviour is directly compared and contrasted with the oxide scheelites CaWO₄, CaMoO₄, SrMoO₄ and PbMoO₄.