Theory of perturbation of the magnetostatic field by an anisotropic magnetic torus

Hamad M. Alkhoori; Akhlesh Lakhtakia; Nikolaos L. Tsitsas

doi:10.1088/2399-6528/adbc45

Theory of perturbation of the magnetostatic field by an anisotropic magnetic torus

Hamad M. Alkhoori, Akhlesh Lakhtakia, Nikolaos L. Tsitsas

Department of Electrical and Communication Engineering

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

Abstract

The perturbation of a magnetostatic field by a torus made of a homogeneous anisotropic magnetic material was formulated using the solutions of the Laplace equation in the toroidal coordinate system. That was straightforward in the region outside the torus, but an affine coordinate transformation had to be employed inside the torus. The coefficients of the series expansion of the perturbation potential in terms of appropriate toroidal basis functions were related to the coefficients of the series expansion of the source potential in terms of appropriate toroidal basis functions by a transition matrix. As a result of the solution of this novel problem, the consequences of material anisotropy on perturbing the magnetostatic field are clearly evident in the region near the torus, for uniform-magnetostatic-field and point-magnetic-dipole sources.

Original language	English
Article number	035001
Journal	Journal of Physics Communications
Volume	9
Issue number	3
DOIs	https://doi.org/10.1088/2399-6528/adbc45
Publication status	Published - Mar 1 2025

Keywords

affine transformation
Green function
magnetostatic perturbation
toroidal coordinates

ASJC Scopus subject areas

General Physics and Astronomy

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10.1088/2399-6528/adbc45

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title = "Theory of perturbation of the magnetostatic field by an anisotropic magnetic torus",

abstract = "The perturbation of a magnetostatic field by a torus made of a homogeneous anisotropic magnetic material was formulated using the solutions of the Laplace equation in the toroidal coordinate system. That was straightforward in the region outside the torus, but an affine coordinate transformation had to be employed inside the torus. The coefficients of the series expansion of the perturbation potential in terms of appropriate toroidal basis functions were related to the coefficients of the series expansion of the source potential in terms of appropriate toroidal basis functions by a transition matrix. As a result of the solution of this novel problem, the consequences of material anisotropy on perturbing the magnetostatic field are clearly evident in the region near the torus, for uniform-magnetostatic-field and point-magnetic-dipole sources.",

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AU - Alkhoori, Hamad M.

AU - Lakhtakia, Akhlesh

AU - Tsitsas, Nikolaos L.

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N2 - The perturbation of a magnetostatic field by a torus made of a homogeneous anisotropic magnetic material was formulated using the solutions of the Laplace equation in the toroidal coordinate system. That was straightforward in the region outside the torus, but an affine coordinate transformation had to be employed inside the torus. The coefficients of the series expansion of the perturbation potential in terms of appropriate toroidal basis functions were related to the coefficients of the series expansion of the source potential in terms of appropriate toroidal basis functions by a transition matrix. As a result of the solution of this novel problem, the consequences of material anisotropy on perturbing the magnetostatic field are clearly evident in the region near the torus, for uniform-magnetostatic-field and point-magnetic-dipole sources.

AB - The perturbation of a magnetostatic field by a torus made of a homogeneous anisotropic magnetic material was formulated using the solutions of the Laplace equation in the toroidal coordinate system. That was straightforward in the region outside the torus, but an affine coordinate transformation had to be employed inside the torus. The coefficients of the series expansion of the perturbation potential in terms of appropriate toroidal basis functions were related to the coefficients of the series expansion of the source potential in terms of appropriate toroidal basis functions by a transition matrix. As a result of the solution of this novel problem, the consequences of material anisotropy on perturbing the magnetostatic field are clearly evident in the region near the torus, for uniform-magnetostatic-field and point-magnetic-dipole sources.

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KW - Green function

KW - magnetostatic perturbation

KW - toroidal coordinates

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Theory of perturbation of the magnetostatic field by an anisotropic magnetic torus

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Keywords

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