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Bibliographic Details
Main Authors: Šachl, L., Kvorka, J., Čadek, O., Velímský, J.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.08576
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author Šachl, L.
Kvorka, J.
Čadek, O.
Velímský, J.
author_facet Šachl, L.
Kvorka, J.
Čadek, O.
Velímský, J.
contents This paper has two main objectives. First, we assess the strength and measurability of Ganymede's ocean-induced magnetic field (OIMF) generated by the flow in the subsurface ocean. Second, we inspect how the OIMF constrains the ocean flow and Ganymede's internal structure and suggest a suitable metric for this purpose. We calculate the OIMF by solving the electromagnetic induction (EMI) equation in the simplified form, where we neglect the ocean-induced field in the advection term and the motionless induction. We show that this approach is sufficiently accurate by comparison with the solution of the full EMI equation. We also demonstrate that the OIMF is predominantly a stationary signal generated by the interaction of the toroidal component of the flow with Ganymede's internal field. The contributions to the OIMF due to the poloidal component of the flow and Jupiter's magnetic field can be neglected as second-order effects. The stationary OIMF is a measurable quantity with a few nT amplitude on Ganymede's surface if the ocean is sufficiently thick (approximately 400 km) and conductive (approximately 5 S/m). In this case, the specific footprint of the measured OIMF could be used to identify the flow regime (mode) of the convecting ocean. Additionally, the OIMF can be used to determine the ocean thickness since the OIMF pattern is shifted towards low latitudes if the ocean thickness is reduced.
format Preprint
id arxiv_https___arxiv_org_abs_2507_08576
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Can the magnetic field induced by convective flow constrain the properties of Ganymede's subsurface ocean?
Šachl, L.
Kvorka, J.
Čadek, O.
Velímský, J.
Geophysics
This paper has two main objectives. First, we assess the strength and measurability of Ganymede's ocean-induced magnetic field (OIMF) generated by the flow in the subsurface ocean. Second, we inspect how the OIMF constrains the ocean flow and Ganymede's internal structure and suggest a suitable metric for this purpose. We calculate the OIMF by solving the electromagnetic induction (EMI) equation in the simplified form, where we neglect the ocean-induced field in the advection term and the motionless induction. We show that this approach is sufficiently accurate by comparison with the solution of the full EMI equation. We also demonstrate that the OIMF is predominantly a stationary signal generated by the interaction of the toroidal component of the flow with Ganymede's internal field. The contributions to the OIMF due to the poloidal component of the flow and Jupiter's magnetic field can be neglected as second-order effects. The stationary OIMF is a measurable quantity with a few nT amplitude on Ganymede's surface if the ocean is sufficiently thick (approximately 400 km) and conductive (approximately 5 S/m). In this case, the specific footprint of the measured OIMF could be used to identify the flow regime (mode) of the convecting ocean. Additionally, the OIMF can be used to determine the ocean thickness since the OIMF pattern is shifted towards low latitudes if the ocean thickness is reduced.
title Can the magnetic field induced by convective flow constrain the properties of Ganymede's subsurface ocean?
topic Geophysics
url https://arxiv.org/abs/2507.08576