Propagations of Rayleigh and Love waves in ZnO films/glass substrates analyzed by three-dimensional finite element method |
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| Affiliation: | 1.School of Electronic Science and Engineering, Nanjing University of Posts and Telecommunications, Nanjing 210046, China;2.Laboratory of Modern Acoustics, Institute of Acoustics, Nanjing University, Nanjing 210093, China |
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| Abstract: | Propagation characteristics of surface acoustic waves (SAWs) in ZnO films/glass substrates are theoretically investigated by the three-dimensional (3D) finite element method. At first, for (1120) ZnO films/glass substrates, the simulation results confirm that the Rayleigh waves along the 0001] direction and Love waves along the 1100] direction are successfully excited in the multilayered structures. Next, the crystal orientations of the ZnO films are rotated, and the influences of ZnO films with different crystal orientations on SAW characterizations, including the phase velocity, electromechanical coupling coefficient, and temperature coefficient of frequency, are investigated. The results show that at appropriate h/λ, Rayleigh wave has a maximum k2 of 2.4% in (90°, 56.5°, 0°) ZnO film/glass substrate structure; Love wave has a maximum k2 of 3.81% in (56°, 90°, 0°) ZnO film/glass substrate structure. Meantime, for Rayleigh wave and Love wave devices, zero temperature coefficient of frequency (TCF) can be achieved at appropriate ratio of film thickness to SAW wavelength. These results show that SAW devices with higher k2 or lower TCF can be fabricated by flexibly selecting the crystal orientations of ZnO films on glass substrates. |
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| Keywords: | surface acoustic wave ZnO films electromechanical coupling coefficient temperature coefficient of frequency 3D finite element method |
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