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Strong Tidal Dissipation at Uranus?

F. Nimmo

2023The Planetary Science Journal11 citationsDOIOpen Access PDF

Abstract

Abstract Geophysical estimates of paleo heat fluxes on the Uranian moons Miranda and Ariel are in the range of 25–75 mW m −2 . For a canonical Uranus dissipation factor Q = 18,000, expected equilibrium tidal heating rates for these satellites are less than 6 mW m −2 . At least for Ariel, this order-of-magnitude discrepancy can be resolved by positing a low Uranus Q ≈ 10 3 in the recent past and at the present day. Such a low Q (high dissipation) can be reconciled with an ancient origin of the Uranian satellites if Q is time-dependent, as exemplified by the “resonance-locking” hypothesis, and provides an additional constraint on the interior structure of the planet. A Q of 10 3 implies present-day migration rates for Miranda and Ariel of 5 and 11 cm yr −1 , respectively, potentially detectable via astrometry.

Topics & Concepts

UranusPhysicsDissipationAstronomyPlanetAstrometryNeptuneAstrophysicsThermodynamicsStarsAstro and Planetary SciencePlanetary Science and ExplorationGeological and Geochemical Analysis
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