Surface Integral Equations for Electromagnetic Testing: The Low-Frequency and High-Contrast Case

Author

Vigneron, Audrey ; Demaldent, Edouard ; Bonnet, Marc

Author_Institution

CEA, LIST, Gif-sur-Yvette, France

Volume

50

Issue

2

fYear

2014

fDate

Feb. 2014

Firstpage

117

Lastpage

120

Abstract

This paper concerns boundary element methods applied to electromagnetic testing for a wide range of frequencies, conductivities and permeabilities. The eddy-current (EC) approximation cannot handle all configurations, while numerical instabilities at low-frequency or for highly contrasted media affect the Maxwell formulation. We examine on a test example how the performance of several Maxwell and EC formulations is affected by frequency, conductivity, and permeability. Among those tested, we propose a weighted loop-tree Maxwell formulation, which is found to be the only one yielding satisfactory results in all considered configurations.

Keywords

Maxwell equations; boundary-elements methods; nondestructive testing; surface conductivity; boundary element methods; conductivity; eddy-current approximation; electromagnetic testing; highly contrasted media; low-frequency media; numerical instability; permeability; surface integral equations; weighted loop-tree Maxwell formulation; Conductivity; Dielectrics; Impedance; Integral equations; Magnetic domains; Permeability; Testing; Eddy currents; Maxwell equations; low frequency; surface integral equations;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2013.2283297

Filename

6749247