Yushkov Konstantin B, Naumenko Natalya F, Molchanov Vladimir Ya
Acousto-Optical Research Center, University of Science and Technology MISIS, 119049 Moscow, Russia.
Materials (Basel). 2022 Nov 17;15(22):8183. doi: 10.3390/ma15228183.
Monoclinic potassium rare-earth crystals are known as efficient materials for solid-state lasers and acousto-optic modulators. A number of specific configurations for acousto-optic devices based on those crystals have recently been proposed, but the acousto-optic effect of those crystals has only been analyzed fragmentarily for some interaction directions. In this work, we numerically searched for the global maxima of an acousto-optic figure of merit for isotropic diffraction in KGd(WO) and KY(WO) crystals. It was demonstrated that the global maxima of the acousto-optic figure of merit in those crystals occur in the slow optical mode propagating along the crystal's twofold symmetry axis and in the acoustic wave propagating orthogonally, both for quasi-longitudinal and quasi-shear acoustic modes. The proposed calculation method can be readily used for the optimization of the acousto-optic interaction geometry in crystals with arbitrary symmetry.
单斜晶系的钾稀土晶体是固态激光器和声光调制器的有效材料。最近已经提出了基于这些晶体的声光器件的许多特定配置,但仅针对某些相互作用方向对这些晶体的声光效应进行了部分分析。在这项工作中,我们通过数值方法搜索了KGd(WO)和KY(WO)晶体中各向同性衍射的声光品质因数的全局最大值。结果表明,这些晶体中声光品质因数的全局最大值出现在沿晶体二次对称轴传播的慢光模式以及垂直传播的声波中,无论是准纵向还是准剪切声波模式。所提出的计算方法可很容易地用于优化具有任意对称性的晶体中的声光相互作用几何结构。