Modeling of weakly conducting thin sheets in the discontinuous Galerkin method for shielding effectiveness evaluation

M. Boubekeur; A. Kameni; A. Modave; L. Bernard; L. Pichon

Modeling of weakly conducting thin sheets in the discontinuous Galerkin method for shielding effectiveness evaluation

M. Boubekeur
, A. Kameni
, A. Modave
, L. Bernard
, L. Pichon

Research output: Contribution to journal › Article › peer-review

Abstract

This paper presents a modeling of weakly conducting thin sheets in the time domain discontinuous Galerkin method. This interface condition is used to avoid the mesh of resistive sheets in order to evaluate the shielding effectiveness in high frequency electromagnetic compatibility problems. This condition is valid when the thickness of the sheet is smaller than the skin depth. This approach is validated by a comparison with an analytical solution. A 1D two sheets example, 2D and 3D cavities are treated to illustrate the efficiency of the condition.

Original language	English
Pages (from-to)	931-937
Number of pages	7
Journal	Applied Computational Electromagnetics Society Journal
Volume	28
Issue number	10
Publication status	Published - 1 Jan 2013
Externally published	Yes

Keywords

Discontinuous galerkin
Resistive sheet
Shielding effectiveness

Cite this

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abstract = "This paper presents a modeling of weakly conducting thin sheets in the time domain discontinuous Galerkin method. This interface condition is used to avoid the mesh of resistive sheets in order to evaluate the shielding effectiveness in high frequency electromagnetic compatibility problems. This condition is valid when the thickness of the sheet is smaller than the skin depth. This approach is validated by a comparison with an analytical solution. A 1D two sheets example, 2D and 3D cavities are treated to illustrate the efficiency of the condition.",

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AU - Boubekeur, M.

AU - Kameni, A.

AU - Modave, A.

AU - Bernard, L.

AU - Pichon, L.

PY - 2013/1/1

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N2 - This paper presents a modeling of weakly conducting thin sheets in the time domain discontinuous Galerkin method. This interface condition is used to avoid the mesh of resistive sheets in order to evaluate the shielding effectiveness in high frequency electromagnetic compatibility problems. This condition is valid when the thickness of the sheet is smaller than the skin depth. This approach is validated by a comparison with an analytical solution. A 1D two sheets example, 2D and 3D cavities are treated to illustrate the efficiency of the condition.

AB - This paper presents a modeling of weakly conducting thin sheets in the time domain discontinuous Galerkin method. This interface condition is used to avoid the mesh of resistive sheets in order to evaluate the shielding effectiveness in high frequency electromagnetic compatibility problems. This condition is valid when the thickness of the sheet is smaller than the skin depth. This approach is validated by a comparison with an analytical solution. A 1D two sheets example, 2D and 3D cavities are treated to illustrate the efficiency of the condition.

KW - Discontinuous galerkin

KW - Resistive sheet

KW - Shielding effectiveness

UR - https://www.scopus.com/pages/publications/84904597695

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SN - 1054-4887

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JO - Applied Computational Electromagnetics Society Journal

JF - Applied Computational Electromagnetics Society Journal

IS - 10

ER -

Modeling of weakly conducting thin sheets in the discontinuous Galerkin method for shielding effectiveness evaluation

Abstract

Keywords

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