Computing electromagnetic eigenmodes with continuous Galerkin approximations

Patrick Ciarlet; Grace Hechme

doi:10.1016/j.cma.2008.08.005

Computing electromagnetic eigenmodes with continuous Galerkin approximations

Patrick Ciarlet
, Grace Hechme

Laboratoire POems UMR 7231 CNRS-INRIA-ENSTA, ENSTA-UMA

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Costabel and Dauge proposed a variational setting to solve numerically the time-harmonic Maxwell equations in 3D polyhedral geometries, with a continuous approximation of the electromagnetic field. In order to remove spurious eigenmodes, three computational strategies are then possible. The original method, which requires a parameterization of the variational formulation. The second method, which is based on an a posteriori filtering of the computed eigenmodes. And the third method, which uses a mixed variational setting so that all spurious modes are removed a priori. In this paper, we discuss the relative merits of the approaches, which are illustrated by a series of 3D numerical examples.

langue originale	Anglais
Pages (de - à)	358-365
Nombre de pages	8
journal	Computer Methods in Applied Mechanics and Engineering
Volume	198
Numéro de publication	2
Les DOIs	https://doi.org/10.1016/j.cma.2008.08.005
état	Publié - 1 déc. 2008

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10.1016/j.cma.2008.08.005

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abstract = "Costabel and Dauge proposed a variational setting to solve numerically the time-harmonic Maxwell equations in 3D polyhedral geometries, with a continuous approximation of the electromagnetic field. In order to remove spurious eigenmodes, three computational strategies are then possible. The original method, which requires a parameterization of the variational formulation. The second method, which is based on an a posteriori filtering of the computed eigenmodes. And the third method, which uses a mixed variational setting so that all spurious modes are removed a priori. In this paper, we discuss the relative merits of the approaches, which are illustrated by a series of 3D numerical examples.",

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AB - Costabel and Dauge proposed a variational setting to solve numerically the time-harmonic Maxwell equations in 3D polyhedral geometries, with a continuous approximation of the electromagnetic field. In order to remove spurious eigenmodes, three computational strategies are then possible. The original method, which requires a parameterization of the variational formulation. The second method, which is based on an a posteriori filtering of the computed eigenmodes. And the third method, which uses a mixed variational setting so that all spurious modes are removed a priori. In this paper, we discuss the relative merits of the approaches, which are illustrated by a series of 3D numerical examples.

KW - Continuous Galerkin discretization

KW - Eigenvalues and eigenvectors computations

KW - Electromagnetism

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ER -

Computing electromagnetic eigenmodes with continuous Galerkin approximations

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