A New Model of Jupiter's Magnetic Field From Juno's First Nine Orbits

A New Model of Jupiter's Magnetic Field From Juno's First Nine Orbits

Abstract A spherical harmonic model of the magnetic field of Jupiter is obtained from vector magnetic field observations acquired by the Juno spacecraft during its first nine polar orbits about the planet. Observations acquired during eight of these orbits provide the first truly global coverage of...

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Bibliographic Details
Main Authors: J. E. P. Connerney, S. Kotsiaros, R. J. Oliversen, J. R. Espley, J. L. Joergensen, P. S. Joergensen, J. M. G. Merayo, M. Herceg, J. Bloxham, K. M. Moore, S. J. Bolton, S. M. Levin
Format: Article
Language:English
Published: Wiley 2018-03-01
Series:Geophysical Research Letters
Subjects:
Jupiter magnetosphere
Juno mission
magnetic field
dynamo generation
planetary magnetic field
Online Access:https://doi.org/10.1002/2018GL077312
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Summary:Abstract A spherical harmonic model of the magnetic field of Jupiter is obtained from vector magnetic field observations acquired by the Juno spacecraft during its first nine polar orbits about the planet. Observations acquired during eight of these orbits provide the first truly global coverage of Jupiter's magnetic field with a coarse longitudinal separation of ~45° between perijoves. The magnetic field is represented with a degree 20 spherical harmonic model for the planetary (“internal”) field, combined with a simple model of the magnetodisc for the field (“external”) due to distributed magnetospheric currents. Partial solution of the underdetermined inverse problem using generalized inverse techniques yields a model (“Juno Reference Model through Perijove 9”) of the planetary magnetic field with spherical harmonic coefficients well determined through degree and order 10, providing the first detailed view of a planetary dynamo beyond Earth.
ISSN:0094-8276
1944-8007

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