THEORETICAL ASPECTS AND NUMERICAL COMPUTATION OF THE TIME-HARMONIC GREEN'S FUNCTION FOR AN ISOTROPIC ELASTIC HALF-PLANE WITH AN IMPEDANCE BOUNDARY CONDITION

Duran, Mario

Pontificia Universidad Católica de Chile

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THEORETICAL ASPECTS AND NUMERICAL COMPUTATION OF THE TIME-HARMONIC GREEN'S FUNCTION FOR AN ISOTROPIC ELASTIC HALF-PLANE WITH AN IMPEDANCE BOUNDARY CONDITION.pdf

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Duran, Mario Godoy, Eduardo Nedelec, Jean Claude

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This work presents an effective and accurate method for determining, from a theoretical and computational point of view, the time-harmonic Green's function of an isotropic elastic half-plane where an impedance boundary condition is considered. This method, based on the previous work done by Duran et al. (cf. [Numer. Math. 107 (2007) 295-314; IMA J. Appl. Math. 71 (2006) 853-876]) for the Helmholtz equation in a half-plane, combines appropriately analytical and numerical techniques, which has an important advantage because the obtention of explicit expressions for the surface waves. We show, in addition to the usual Rayleigh wave, another surface wave appearing in some special cases. Numerical results are given to illustrate that. This is an extended and detailed version of the previous article by Duran et al. [C. R. Acad. Sci. Paris, Ser. IIB 334 (2006) 725-731].

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Autor	Duran, Mario Godoy, Eduardo Nedelec, Jean Claude
Título	THEORETICAL ASPECTS AND NUMERICAL COMPUTATION OF THE TIME-HARMONIC GREEN'S FUNCTION FOR AN ISOTROPIC ELASTIC HALF-PLANE WITH AN IMPEDANCE BOUNDARY CONDITION
Revista	ESAIM-MATHEMATICAL MODELLING AND NUMERICAL ANALYSIS-MODELISATION MATHEMATIQUE ET ANALYSE NUMERIQUE
ISSN	0764-583X
Volumen	44
Número de publicación	4
Página inicio	671
Página final	692
Fecha de publicación	2010
Resumen	This work presents an effective and accurate method for determining, from a theoretical and computational point of view, the time-harmonic Green's function of an isotropic elastic half-plane where an impedance boundary condition is considered. This method, based on the previous work done by Duran et al. (cf. [Numer. Math. 107 (2007) 295-314; IMA J. Appl. Math. 71 (2006) 853-876]) for the Helmholtz equation in a half-plane, combines appropriately analytical and numerical techniques, which has an important advantage because the obtention of explicit expressions for the surface waves. We show, in addition to the usual Rayleigh wave, another surface wave appearing in some special cases. Numerical results are given to illustrate that. This is an extended and detailed version of the previous article by Duran et al. [C. R. Acad. Sci. Paris, Ser. IIB 334 (2006) 725-731].
Derechos	acceso restringido
Agencia financiadora	Proyecto ANILLO de Investigacion ACT30 del Programa Bicentenario en Ciencia y Tecnologia de CONICYT/World Bank (Chile) PUC
DOI	10.1051/m2an/2010020
Editorial	EDP SCIENCES S A
Enlace	https://doi.org/10.1051/m2an/2010020 https://repositorio.uc.cl/handle/11534/79850
Id de publicación en WoS	WOS:000280137500004
Paginación	22 páginas
Palabra clave	Green's function half-plane time-harmonic elasticity impedance boundary condition surface waves LAMBS PROBLEM EMBEDDED SOURCES SPACE MODEL
Tema ODS	11 Sustainable Cities and Communities
Tema ODS español	11 Ciudades y comunidades sostenibles
Tipo de documento	artículo