Open AccessMapped orthogonal functions method applied to acoustic waves-based devices
Author(s) -
J.E. Lefebvre,
Jiangong Yu,
F. E. Ratolojanahary,
L. Elmaimouni,
Wei-Jiang Xü,
T. Gryba
Publication year - 2016
Publication title -
aip advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.421
H-Index - 58
ISSN - 2158-3226
DOI - 10.1063/1.4953847
Subject(s) - acoustics , resonator , dispersion (optics) , dispersion relation , position (finance) , acoustic dispersion , mode (computer interface) , orthogonal functions , boundary value problem , wave propagation , mathematical analysis , computer science , physics , acoustic wave , optics , mathematics , economics , operating system , finance
This work presents the modelling of acoustic wave-based devices of various geometries through a mapped orthogonal functions method. A specificity of the method, namely the automatic incorporation of boundary conditions into equations of motion through position-dependent physical constants, is presented in detail. Formulations are given for two classes of problems: (i) problems with guided mode propagation and (ii) problems with stationary waves. The method’s interest is demonstrated by several examples, a seven-layered plate, a 2D rectangular resonator and a 3D cylindrical resonator, showing how it is easy to obtain either dispersion curves and field profiles for devices with guided mode propagation or electrical response for devices with stationary waves. Extensions and possible further developments are also given
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