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Bibliographic Details
Main Authors: Woodley, Michael T. M., Coussens, Thomas, Evans, William, Withers, Matthew, Page, Leigh, Nightingale, Daniel, Nicolau, Denilson, Kendall, Gary, Orucevic, Fedja, Kruger, Peter
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.03469
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author Woodley, Michael T. M.
Coussens, Thomas
Evans, William
Withers, Matthew
Page, Leigh
Nightingale, Daniel
Nicolau, Denilson
Kendall, Gary
Orucevic, Fedja
Kruger, Peter
author_facet Woodley, Michael T. M.
Coussens, Thomas
Evans, William
Withers, Matthew
Page, Leigh
Nightingale, Daniel
Nicolau, Denilson
Kendall, Gary
Orucevic, Fedja
Kruger, Peter
contents We present calculations that reconstruct electronic current densities in two stacked layers at known depths, using magnetic field data. Solving this inverse problem requires knowledge of the magnetic field in two planes -- one above both current layers, one below -- corresponding to non-invasive measurements of the field. We corroborate the accuracy of current density reconstruction from the resulting system of equations using a numerical simulation. This method is anticipated to be applicable to non-destructive current imaging for quality assurance in a range of applications featuring two-layer geometries, including printed circuit boards, capacitors, fuel cells, and battery cells; we focus particularly here on battery cells, due to their rapidly increasing relevance for automotive applications. This method also offers a framework for generalising the model to more than two layers in future work.
format Preprint
id arxiv_https___arxiv_org_abs_2512_03469
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The magnetic inverse problem for two stacked layers of sources
Woodley, Michael T. M.
Coussens, Thomas
Evans, William
Withers, Matthew
Page, Leigh
Nightingale, Daniel
Nicolau, Denilson
Kendall, Gary
Orucevic, Fedja
Kruger, Peter
Mathematical Physics
We present calculations that reconstruct electronic current densities in two stacked layers at known depths, using magnetic field data. Solving this inverse problem requires knowledge of the magnetic field in two planes -- one above both current layers, one below -- corresponding to non-invasive measurements of the field. We corroborate the accuracy of current density reconstruction from the resulting system of equations using a numerical simulation. This method is anticipated to be applicable to non-destructive current imaging for quality assurance in a range of applications featuring two-layer geometries, including printed circuit boards, capacitors, fuel cells, and battery cells; we focus particularly here on battery cells, due to their rapidly increasing relevance for automotive applications. This method also offers a framework for generalising the model to more than two layers in future work.
title The magnetic inverse problem for two stacked layers of sources
topic Mathematical Physics
url https://arxiv.org/abs/2512.03469