☆ 4.5 Article

Constraints on Io's interior fromauroral spot oscillations

JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS (2017)

Journal

JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS

Volume 122, Issue 2, Pages 1903-1927

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AMER GEOPHYSICAL UNION

DOI: 10.1002/2016JA023701

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Astronomy & Astrophysics

Funding

NASA [NAS5-26555, HST-GO-13336.001-A]
Swedish VINNOVA agency
Gran Gustafsson Foundation

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Abstract

The morphology of Io's aurora is dominated by bright spots near the equator that oscillate up and down in approximate correlation with the oscillating orientation of the Jovian magnetospheric field. Analyzing Hubble Space Telescope images, we find that the auroral spots oscillate in phase with the time-variable Jovian magnetic field at Io and that the amplitude of the spot oscillations is reduced by 15% (+/- 5%) with respect to the amplitude of the magnetic field oscillation. We investigate the effects of Io's plasma interaction and magnetic induction in the moon's interior on the magnetic field topology and the aurora oscillations using a magnetohydrodynamic (MHD) simulation and an analytical induction model. The results from the MHD simulation suggest that the plasma interaction has minor effects on the oscillations, while the magnetic induction generally reduces magnetic field oscillations near the surface. However, the analytical model shows that induction in any near-surface layer for which the skin depth is larger than the thickness-like a conductive magma ocean-would induce a phase shift, in conflict with the observations. Under the assumption that the spot oscillations represent the magnetic field oscillation, we constrain the conductance of a near-surface layer to 1 x 10(3) S or lower. A magma ocean with conductances of 10(4) S or higher as derived from Galileo magnetometer measurements would cause overly strong attenuation of the amplitude in addition to the irreconcilable phase shift. The observed weakly attenuated, in-phase spot oscillation is consistent with induction in a deep, highly conductive layer like Io's metallic core.

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Probing Ganymede's Atmosphere with HST Lyα Images in Transit of Jupiter

Lorenz Roth, Gregorio Marchesini, Tracy M. Becker, H. Jens Hoeijmakers, Philippa M. Molyneux, Kurt D. Retherford, Joachim Saur, Shane Carberry R. Mogan, Jamey R. Szalay

Summary: We present the results of far-ultraviolet observations of Ganymede transiting across Jupiter's dayside hemisphere. The observations show that the hydrogen Ly alpha dayglow of Jupiter is slightly attenuated around Ganymede, with stronger attenuation when the moon is near the planet's center. We derive an upper limit on the local H2O column density, suggesting the presence of outgassing plumes near the observed moon limb.

PLANETARY SCIENCE JOURNAL (2023)

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Article Astronomy & Astrophysics

A New UV Spectral Feature on Europa: Confirmation of NaCl in Leading-hemisphere Chaos Terrain

Samantha K. Trumbo, Tracy M. Becker, Michael E. Brown, William T. P. Denman, Philippa Molyneux, Amanda Hendrix, Kurt D. Retherford, Lorenz Roth, Juan Alday

Summary: Recent observations using the Hubble Space Telescope have identified absorption features on Europa's surface, believed to be caused by sodium chloride. Further analysis with ultraviolet spectra revealed additional absorption features, providing important insights into Europa's subsurface composition.

PLANETARY SCIENCE JOURNAL (2022)

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