2003
DOI: 10.1063/1.1621053
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Scattering matrix method for modeling acoustic waves in piezoelectric, fluid, and metallic multilayers

Abstract: Many ultrasonic devices, among which are surface and bulk acoustic wave devices and ultrasonic transducers, are based on multilayers of heterogeneous materials, i.e., piezoelectrics, dielectrics, metals, and conducting or insulating fluids. We introduce metal and fluid layers and half spaces into a numerically stable scattering matrix model originally proposed for solving the problem of plane wave propagation in piezoelectric and dielectric multilayers. The method is stable for arbitrary thicknesses of the lay… Show more

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Cited by 74 publications
(34 citation statements)
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References 8 publications
(16 reference statements)
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“…Consequently, one has to take into account the evolution of the phase velocity Vϕ versus the frequency-thickness product relative to the PZT overlay thickness and the IDT mechanical period p which will force the operating frequency as f =Vϕ/2. p. Figure 5 shows the dispersion curves derived from the Green's function of the substrate [9]. The velocity curve (Fig.…”
Section: Characterization and Analysismentioning
confidence: 99%
“…Consequently, one has to take into account the evolution of the phase velocity Vϕ versus the frequency-thickness product relative to the PZT overlay thickness and the IDT mechanical period p which will force the operating frequency as f =Vϕ/2. p. Figure 5 shows the dispersion curves derived from the Green's function of the substrate [9]. The velocity curve (Fig.…”
Section: Characterization and Analysismentioning
confidence: 99%
“…In this paper, we investigate the possibility to accurately predict mass loading effects on BAW resonators built on AT-cut quartz using different theoretical approach. A simple model based on the Fahmy-Adler formulation [4] is first used to scale the sensitivity of infinite plane resonators homogeneously loaded on its both faces. A perturbation approach is then implemented to account for the actual shape of the resonator and of its associated electrodes, in 2 and 3D as well.…”
Section: Introductionmentioning
confidence: 99%
“…These elements are associated with incident and reflected modes. As suggested by Tan (Tan, 2002) and Reinhardt (Reinhardt et al, 2003), a separate treatment of these two groups of partial modes helps to avoid the instability and extends the range of the analyzed thicknesses from zero to infinite value. Another limitation of the previously reported numerical techniques developed for analysis of SAW in multilayered structures is their focusing on a certain type of acoustic waves, which is related to a fixed type of a multilayered structure, with analytically defined boundary conditions at the interfaces and external boundaries.…”
Section: An Advanced Numerical Technique For Analysis Of Acoustic Wavmentioning
confidence: 99%