Unified and stable scattering matrix ...
Document type :
Compte-rendu et recension critique d'ouvrage
DOI :
Title :
Unified and stable scattering matrix formalism for acoustic waves in piezoelectric stacks
Author(s) :
Zhang, Victor [Auteur]
Institut d’Électronique, de Microélectronique et de Nanotechnologie - UMR 8520 [IEMN]
Laude, Vincent [Auteur]
Franche-Comté Électronique Mécanique, Thermique et Optique - Sciences et Technologies (UMR 6174) [FEMTO-ST]
Institut d’Électronique, de Microélectronique et de Nanotechnologie - UMR 8520 [IEMN]
Laude, Vincent [Auteur]
Franche-Comté Électronique Mécanique, Thermique et Optique - Sciences et Technologies (UMR 6174) [FEMTO-ST]
Journal title :
Journal of Applied Physics
Pages :
064916-1-7
Publisher :
American Institute of Physics
Publication date :
2008
ISSN :
0021-8979
HAL domain(s) :
Sciences de l'ingénieur [physics]
English abstract : [en]
This paper presents a unified and full scattering matrix (s-matrix) formalism for modeling of acoustic waves in piezoelectric multilayered structures. A stable recursive algorithm is derived for computation of the total ...
Show more >This paper presents a unified and full scattering matrix (s-matrix) formalism for modeling of acoustic waves in piezoelectric multilayered structures. A stable recursive algorithm is derived for computation of the total s-matrix of a stack in terms of the interface s-matrix, both referring to the eigen-modes amplitudes. The derivation is direct and succinct, the deduced expressions of the s-matrix are terse and concise, and the recursion algorithm is efficient and convenient for implementation. The total s-matrix recursion scheme differs from the previously published partial matrix algorithms in that the recursions are conducted once for all independent of the stack boundary conditions and so the same results apply for any BC that can be specified later. Numerical examples are given to show its numerical features that are superior to other currently used matrix formalisms, such as unconditional stability for both large and small thicknesses, being pole-free and branch point-sensitive, constant mean-magnitude with stable phase, involving only dimensionless elements.Show less >
Show more >This paper presents a unified and full scattering matrix (s-matrix) formalism for modeling of acoustic waves in piezoelectric multilayered structures. A stable recursive algorithm is derived for computation of the total s-matrix of a stack in terms of the interface s-matrix, both referring to the eigen-modes amplitudes. The derivation is direct and succinct, the deduced expressions of the s-matrix are terse and concise, and the recursion algorithm is efficient and convenient for implementation. The total s-matrix recursion scheme differs from the previously published partial matrix algorithms in that the recursions are conducted once for all independent of the stack boundary conditions and so the same results apply for any BC that can be specified later. Numerical examples are given to show its numerical features that are superior to other currently used matrix formalisms, such as unconditional stability for both large and small thicknesses, being pole-free and branch point-sensitive, constant mean-magnitude with stable phase, involving only dimensionless elements.Show less >
Language :
Anglais
Popular science :
Non
Source :
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