Litcius/Paper detail

Sharp estimate of electric field from a conductive rod and application

Xiaoping Fang, Youjun Deng, Hongyu Liu

2020Studies in Applied Mathematics15 citationsDOI

Abstract

Abstract We are concerned with the quantitative study of the electric field perturbation due to the presence of an inhomogeneous conductive rod embedded in a homogenous conductivity. We sharply quantify the dependence of the perturbed electric field on the geometry of the conductive rod. In particular, we accurately characterize the localization of the gradient field (i.e., the electric current) near the boundary of the rod where the curvature is sufficiently large. We develop layer‐potential techniques in deriving the quantitative estimates and the major difficulty comes from the anisotropic geometry of the rod. The result complements and sharpens several existing studies in the literature. It also generates an interesting application in EIT (electrical impedance tomography) in determining the conductive rod by a single measurement, which is also known as the Calderón's inverse inclusion problem in the literature.

Topics & Concepts

Electrical conductorElectric fieldCurvatureElectrical impedance tomographyAnisotropyPerturbation (astronomy)ConductivityField (mathematics)Inverse problemInverseBoundary (topology)Electrical impedanceBoundary value problemGeometryPhysicsElectrical resistivity and conductivityMechanicsMathematical analysisOpticsMathematicsQuantum mechanicsPure mathematicsNumerical methods in inverse problemsElectrical and Bioimpedance TomographyMicrowave Imaging and Scattering Analysis