ZnO film thickness effect on surface acoustic wave modes and acoustic streaming

Du, X.Y.; Fu, Yong Qing; Tan, S. C.; Luo, Jikui; Flewitt, Andrew; Milne, William; Lee, Dae-Sik; Park, Nae-Man; Park, J.; Choi, Youngjin; Kim, Sang Hyeob; Maeng, Sunglyul

oai:nrl.northumbria.ac.uk:21890

ZnO film thickness effect on surface acoustic wave modes and acoustic streaming

Authors: X.Y. Du
Yong Qing Fu
S. C. Tan
Jikui Luo
Andrew Flewitt
William Milne
Dae-Sik Lee
Nae-Man Park
J. Park
Youngjin Choi
Sang Hyeob Kim
Sunglyul Maeng
Publication date: 1 January 2008
Publisher: American Institute of Physics
Doi

Abstract

Surface acoustic wave(SAW) devices were fabricated on ZnO thin films deposited on Si substrates. Effects of ZnOfilm thickness on the wave mode and resonant frequency of the SAWs have been investigated. Rayleigh and Sezawa waves were detected, and their resonant frequencies decrease with increase in film thickness. The Sezawa wave has much higher acoustic velocity and larger signal amplitude than those of Rayleigh mode wave.Acoustic streaming for mixing has been realized in piezoelectric thin filmSAWs. The Sezawa wave has a much better efficiency in streaming, and thus is very promising for application in microfluidics

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