Analyzing Io's tidal response, we find that Juno-consistent models require melt fractions below the rheologically critical threshold. Mass flux analysis confirms that efficient melt drainage prevents the formation of a global magma ocean....
Interpreting Juno Observations: Maximum Melt Fraction Constraints on Io's Interior Structure from Tidal Response / Paris, M.; Mura, A.; Zambon, F.; Genova, A.; Tosi, F.; Piccioni, G.; Consorzi, A.; Mitri, G.; Sordini, R.; Noschese, R.; Cicchetti, A.; Plainaki, C.; Bolton, S.; Sindoni, G.; Jiram, Team. - 3160:(2026). ( 57th Lunar and Planetary Science Conference The Woodlands, Texas ).
Interpreting Juno Observations: Maximum Melt Fraction Constraints on Io's Interior Structure from Tidal Response
Paris, M.
;Genova, A.;
2026
Abstract
Analyzing Io's tidal response, we find that Juno-consistent models require melt fractions below the rheologically critical threshold. Mass flux analysis confirms that efficient melt drainage prevents the formation of a global magma ocean....File allegati a questo prodotto
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