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Bibliographic Details
Main Authors: Huang, X., Gerhards, C., Ren, Z.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.04886
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author Huang, X.
Gerhards, C.
Ren, Z.
author_facet Huang, X.
Gerhards, C.
Ren, Z.
contents Internal-external field separation is crucial for many aspects of geomagnetism, aiming at distinguishing contributions of the magnetic field generated within the Earth (or any other planet) from those produced in the exterior. When data is available on a full spherical observation surface, this separation is a standard, stable, and widely used procedure dating back to Gauss. However, when data is only available in a subdomain of the observation surface (as is the case for aeromagnetic and ground-based surveys), the situation changes. Here we show that, without prior assumptions, an internal-external field separation is not uniquely possible. Given the geophysically reasonable assumption that the exterior sources (e.g., ionospheric current systems) are located above a source-free spherical shell, we show that a unique separation becomes possible but that it is highly unstable. The results are based on a Hardy-Hodge decomposition of spherical vector fields and provide an explanation of the intrinsic difficulties of regional data-based internal-external field separation.
format Preprint
id arxiv_https___arxiv_org_abs_2603_04886
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Global versus local internal-external field separation on the sphere: a Hardy-Hodge perspective
Huang, X.
Gerhards, C.
Ren, Z.
Functional Analysis
Geophysics
Internal-external field separation is crucial for many aspects of geomagnetism, aiming at distinguishing contributions of the magnetic field generated within the Earth (or any other planet) from those produced in the exterior. When data is available on a full spherical observation surface, this separation is a standard, stable, and widely used procedure dating back to Gauss. However, when data is only available in a subdomain of the observation surface (as is the case for aeromagnetic and ground-based surveys), the situation changes. Here we show that, without prior assumptions, an internal-external field separation is not uniquely possible. Given the geophysically reasonable assumption that the exterior sources (e.g., ionospheric current systems) are located above a source-free spherical shell, we show that a unique separation becomes possible but that it is highly unstable. The results are based on a Hardy-Hodge decomposition of spherical vector fields and provide an explanation of the intrinsic difficulties of regional data-based internal-external field separation.
title Global versus local internal-external field separation on the sphere: a Hardy-Hodge perspective
topic Functional Analysis
Geophysics
url https://arxiv.org/abs/2603.04886