A novel structure consisting of a Si plate sandwiched between two ZnO layers is suggested as propagation medium for Quasi Longitudinal (QL) acoustic Lamb waves. Considering a low -dispersive quasi longitudinal mode as an example, the phase velocity nu, electromechanical coupling constant k(2) and mechanical displacements U1, U3 versus plate and ZnO layers thicknesses have been calculated starting from uncoated plate through the same plate with one layer to the plate with two layers ohto opposite faces. A remarkable increase in the electromechanical coupling, together with an essential decrease in the vertical displacement (U-3 at the ZnO surface, have been theoretically demonstrated and experimentally verified for definite combinations of the films/plate thicknesses. This property of the structure is attractive for applications to microwave liquid sensors. (C) 2017 Elsevier B.V. All rights reserved.
Quasi longitudinal Lamb acoustic modes along ZnO/Si/ZnO structures
Verona E;
2017
Abstract
A novel structure consisting of a Si plate sandwiched between two ZnO layers is suggested as propagation medium for Quasi Longitudinal (QL) acoustic Lamb waves. Considering a low -dispersive quasi longitudinal mode as an example, the phase velocity nu, electromechanical coupling constant k(2) and mechanical displacements U1, U3 versus plate and ZnO layers thicknesses have been calculated starting from uncoated plate through the same plate with one layer to the plate with two layers ohto opposite faces. A remarkable increase in the electromechanical coupling, together with an essential decrease in the vertical displacement (U-3 at the ZnO surface, have been theoretically demonstrated and experimentally verified for definite combinations of the films/plate thicknesses. This property of the structure is attractive for applications to microwave liquid sensors. (C) 2017 Elsevier B.V. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
