Theoretical studies on LiNbO3/sapphire layered structure with SiO2 over layer for zero TCD SAW device applications

Surface acoustic wave (SAW) propagation characteristics of c-axis oriented LiNbO₃ thin films on epitaxially matched sapphire substrate have been calculated theoretically. C-axis oriented LiNbO₃ films on sapphire substrates exhibit a low coupling coefficient (less than 1.5% for LiNbO₃ thickness varying between 0 to 0.3λ) and a high positive TCD (82-96 ppm/°C) for LiNbO₃ thickness varying between 0 to 0.5λ. Introduction of a nonpiezoelectric SiO₂ over-layer with a negative TCD is found to compensate for the high positive TCD of the layered structure yielding a zero TCD and an enhanced coupling coefficient. The thickness of SiO₂ and LiNbO₃ layers have been optimized, and a high coupling coefficient of 3.94% with zero TCD has been achieved for a SiO₂/LiNbO₃/sapphire layered structure with 0.29λ thick LiNbO₃ layer, and 0.3λ thick SiO ₂ over-layer