Low-frequency dipolar excitation of a perfect ellipsoidal conductor
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Publication:3586732
DOI10.1090/S0033-569X-2010-01171-5zbMath1196.78018MaRDI QIDQ3586732
G. Perrusson, Dominique Lesselier, Panayiotis Vafeas
Publication date: 1 September 2010
Published in: Quarterly of Applied Mathematics (Search for Journal in Brave)
Full work available at URL: http://www.ams.org/journals/qam/2010-68-03/S0033-569X-2010-01171-5/home.html
Related Items (7)
Connection formulae between ellipsoidal and spherical harmonics with applications to fluid dynamics and electromagnetic scattering ⋮ Dipolar excitation of a perfectly electrically conducting spheroid in a lossless medium at the low-frequency regime ⋮ Low-frequency electromagnetic scattering by a metal torus in a lossless medium with magnetic dipolar illumination ⋮ Electromagnetic low-frequency dipolar excitation of two metal spheres in a conductive medium ⋮ Revisiting the low-frequency dipolar perturbation by an impenetrable ellipsoid in a conductive surrounding ⋮ Estimates for the low-frequency electromagnetic fields scattered by two adjacent metal spheres in a lossless medium ⋮ Mathematical and numerical analysis of low-frequency scattering from a PEC ring torus in a conductive medium
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- Electromagnetic imaging of a three-dimensional perfectly conducting object using a boundary integral formulation
- Application of a spheroidal-mode approach and a differential evolution algorithm for inversion of magneto-quasistatic data in UXO discrimination
- 3D near-to-surface conductivity reconstruction by inversion of VETEM data using the distorted Born iterative method
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