Propagation of QSH (quasi shear horizontal) acoustic waves in piezoelectric plates.

Abstract

The characteristics of QSH (quasi shear horizontal) acoustic waves propagating in thin plates of Y-cut, X-propagation lithium niobate are investigated theoretically and experimentally. The fractional velocity change (Deltanu/nu) produced by electrical shorting of the surface is calculated as a function of the normalized plate thickness h/lambda (h=plate thickness, lambda=acoustic wavelength). It was found that values of Deltanu/nu as high as 0.18 could be obtained. Experimental measurements show good agreement with theory. The properties of QSH waves propagating in the presence of a perfectly conducting electrode separated from the piezoelectric plate by a small air gap have been studied theoretically and experimentally. It was found that by varying the height of the gap, the phase shift through a 3.2-MHz QSH wave delay line can be varied by more than 230 degrees . We have also theoretically investigated the influence of a thin layer of arbitrary conductivity on the velocity and attenuation of the QSH wave. Calculations show that the variations in these parameters can be as high as 18% and 5 dB per wavelength for a change in layer surface conductance from 10(-7) to 10(-5) S. Results obtained in this paper confirm the attractive properties of QSH waves for a variety of sensing and signal processing applications.

DOI: 10.1109/58.796134

Cite this paper

@article{Zaitsev1999PropagationOQ, title={Propagation of QSH (quasi shear horizontal) acoustic waves in piezoelectric plates.}, author={Boris D Zaitsev and Shrinivas G Joshi and Iren E Kuznetsova}, journal={IEEE transactions on ultrasonics, ferroelectrics, and frequency control}, year={1999}, volume={46 5}, pages={1298-302} }