DocumentCode
1089963
Title
GHz frequency ZnO/Si SAW device
Author
Brizoual, Laurent Le ; Sarry, Frederic ; Elrnazria, O. ; Alnot, Patrick ; Ballandras, Sylvain ; Pastureaud, Thomas
Author_Institution
CNRS, Nancy
Volume
55
Issue
2
fYear
2008
fDate
2/1/2008 12:00:00 AM
Firstpage
442
Lastpage
450
Abstract
The demand for high-frequency low-loss filters generates intensive research on innovative wave guide solutions. In this work, a GHz SAW device based on a ZnO/Si structure was fabricated using classical UV photolithography. The thickness of the piezoelectric thin film was optimized and a specific interdigital transducer structure was used to generate third and fifth harmonic guided waves at 2.5 GHz and 3.5 GHz, respectively, with an aluminum strip larger than 1 micrometer. Different modes have been measured and theoretically identified thanks to an advanced finite-element/boundary-element- based model. Good agreement is found between theory and experiments. The high-frequency modes have been fully characterized, allowing for accurate design of SAW devices exploiting such modes.
Keywords
II-VI semiconductors; elemental semiconductors; finite element analysis; interdigital transducers; optical harmonic generation; semiconductor devices; silicon; surface acoustic wave filters; surface acoustic wave transducers; surface acoustic wave waveguides; ultraviolet lithography; wide band gap semiconductors; zinc compounds; SAW device; UV photolithography; ZnO-Si; aluminum strip; boundary-element-based model; fifth harmonic guided waves; finite-element-based model; frequency 2.5 GHz; frequency 3.5 GHz; high-frequency low-loss filters; high-frequency modes; innovative wave guide solutions; interdigital transducer structure; piezoelectric thin film; surface acoustic wave devices; third harmonic guided waves; Aluminum; Finite element methods; Frequency; Lithography; Piezoelectric films; Piezoelectric transducers; Power harmonic filters; Strips; Surface acoustic wave devices; Zinc oxide;
fLanguage
English
Journal_Title
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
Publisher
ieee
ISSN
0885-3010
Type
jour
DOI
10.1109/TUFFC.2008.662
Filename
4460878
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