Dispersion analysis of triangle-based Whitney element methods for electromagnetic wave propagation

Marcella Bonazzoli; Francesca Rapetti; Chiara Venturini

doi:10.1016/j.amc.2017.03.026

Dispersion analysis of triangle-based Whitney element methods for electromagnetic wave propagation

Marcella Bonazzoli
, Francesca Rapetti
, Chiara Venturini

Université Côte D’Azur
University of Verona

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

Résumé

We study the numerical dispersion/dissipation of a triangle-based edge Finite Element Method (edgeFEM) of degree r ≥ 1 when coupled with the Leap-Frog (LF) finite difference scheme to simulate the electromagnetic wave propagation over a structured triangulation of the 2D physical domain. The analysis addresses the discrete eigenvalue problem resulting from the approximation of the dispersion relation. First, we present semi-discrete dispersion graphs by varying the approximation degree r and the number of discrete points per wavelength. The fully-discrete ones are then obtained by varying also the time step. Numerical results for the edgeFEM, resp. edgeFEM-LF, are compared with those for the node Finite Element Method (nodeFEM), resp. nodeFEM-LF, applied to the considered problem.

langue originale	Anglais
Pages (de - à)	274-286
Nombre de pages	13
journal	Applied Mathematics and Computation
Volume	319
Les DOIs	https://doi.org/10.1016/j.amc.2017.03.026
état	Publié - 15 févr. 2018
Modification externe	Oui

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10.1016/j.amc.2017.03.026

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title = "Dispersion analysis of triangle-based Whitney element methods for electromagnetic wave propagation",

abstract = "We study the numerical dispersion/dissipation of a triangle-based edge Finite Element Method (edgeFEM) of degree r ≥ 1 when coupled with the Leap-Frog (LF) finite difference scheme to simulate the electromagnetic wave propagation over a structured triangulation of the 2D physical domain. The analysis addresses the discrete eigenvalue problem resulting from the approximation of the dispersion relation. First, we present semi-discrete dispersion graphs by varying the approximation degree r and the number of discrete points per wavelength. The fully-discrete ones are then obtained by varying also the time step. Numerical results for the edgeFEM, resp. edgeFEM-LF, are compared with those for the node Finite Element Method (nodeFEM), resp. nodeFEM-LF, applied to the considered problem.",

keywords = "Dispersion/dissipation analysis, Edge versus nodal finite elements, Electromagnetic wave equation, High-order approximations, Triangular grids",

author = "Marcella Bonazzoli and Francesca Rapetti and Chiara Venturini",

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year = "2018",

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doi = "10.1016/j.amc.2017.03.026",

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TY - JOUR

T1 - Dispersion analysis of triangle-based Whitney element methods for electromagnetic wave propagation

AU - Bonazzoli, Marcella

AU - Rapetti, Francesca

AU - Venturini, Chiara

PY - 2018/2/15

Y1 - 2018/2/15

N2 - We study the numerical dispersion/dissipation of a triangle-based edge Finite Element Method (edgeFEM) of degree r ≥ 1 when coupled with the Leap-Frog (LF) finite difference scheme to simulate the electromagnetic wave propagation over a structured triangulation of the 2D physical domain. The analysis addresses the discrete eigenvalue problem resulting from the approximation of the dispersion relation. First, we present semi-discrete dispersion graphs by varying the approximation degree r and the number of discrete points per wavelength. The fully-discrete ones are then obtained by varying also the time step. Numerical results for the edgeFEM, resp. edgeFEM-LF, are compared with those for the node Finite Element Method (nodeFEM), resp. nodeFEM-LF, applied to the considered problem.

AB - We study the numerical dispersion/dissipation of a triangle-based edge Finite Element Method (edgeFEM) of degree r ≥ 1 when coupled with the Leap-Frog (LF) finite difference scheme to simulate the electromagnetic wave propagation over a structured triangulation of the 2D physical domain. The analysis addresses the discrete eigenvalue problem resulting from the approximation of the dispersion relation. First, we present semi-discrete dispersion graphs by varying the approximation degree r and the number of discrete points per wavelength. The fully-discrete ones are then obtained by varying also the time step. Numerical results for the edgeFEM, resp. edgeFEM-LF, are compared with those for the node Finite Element Method (nodeFEM), resp. nodeFEM-LF, applied to the considered problem.

KW - Dispersion/dissipation analysis

KW - Edge versus nodal finite elements

KW - Electromagnetic wave equation

KW - High-order approximations

KW - Triangular grids

UR - https://www.scopus.com/pages/publications/85018945003

U2 - 10.1016/j.amc.2017.03.026

DO - 10.1016/j.amc.2017.03.026

M3 - Article

AN - SCOPUS:85018945003

SN - 0096-3003

VL - 319

SP - 274

EP - 286

JO - Applied Mathematics and Computation

JF - Applied Mathematics and Computation

ER -

Dispersion analysis of triangle-based Whitney element methods for electromagnetic wave propagation

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