2017
DOI: 10.1002/2016je005249
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Tidal constraints on the interior of Venus

Abstract: As a prospective study for a future exploration of Venus, we compute the tidal response of Venus' interior assuming various mantle compositions and temperature profiles representative of different scenarios of Venus' formation and evolution. The mantle density and seismic velocities are modeled from thermodynamical equilibria of mantle minerals and used to predict the moment of inertia, Love numbers, and tide‐induced phase lag characterizing the signature of the internal structure in the gravity field. The vis… Show more

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Cited by 95 publications
(138 citation statements)
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“…Tackley et al (2013) argued that thermal convection through a self-regulation effect controls the viscosity values reached at high pressure and should be of the order of 10 25 -10 26 Pa s and remain relatively constant with depth. Moreover, as shown in the case of Venus, the tidal response for interiors with viscosity that varies with depth is comparable to that computed for interiors with constant viscosity (equal to the average of the variable profile; Dumoulin et al 2017), meaning that depth-variable viscosity can be reasonably neglected at first order.…”
Section: Rheological Parameters and Assumptionssupporting
confidence: 57%
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“…Tackley et al (2013) argued that thermal convection through a self-regulation effect controls the viscosity values reached at high pressure and should be of the order of 10 25 -10 26 Pa s and remain relatively constant with depth. Moreover, as shown in the case of Venus, the tidal response for interiors with viscosity that varies with depth is comparable to that computed for interiors with constant viscosity (equal to the average of the variable profile; Dumoulin et al 2017), meaning that depth-variable viscosity can be reasonably neglected at first order.…”
Section: Rheological Parameters and Assumptionssupporting
confidence: 57%
“…Many models have been developed to compute the tidal response of a variety of planetary objects of the solar system in the past using multi-layer methods (e.g. Alterman et al 1959;Kaula 1964;Sabadini et al 1982;Segatz et al 1988;Tobie et al 2005;Wahr et al 2009;Rivoldini et al 2011;Beuthe 2013;Dumoulin et al 2017). Most studies dedicated to exoplanets have used simplified approaches to predict the tidal response assuming, for instance, the formula derived for homogenous viscoelastic interiors (Henning et al 2009;Efroimsky 2012;Makarov & Efroimsky 2014;Barr et al 2018;Makarov et al 2018), and thus neglecting the rheological effects of radial heterogeneity induced by the increase of temperature and pressure with depth and the coupling between the different internal layers.…”
Section: Introductionmentioning
confidence: 99%
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“…Models assuming Venus started with a homogeneous, Earth‐like core instead predict that a dynamo existed until ≪ 500 Ma if precipitation of light elements or nucleation of the inner core ‐ powered chemical convection (O ' Rourke et al, ). Finally, the age of latest magnetization would provide a critical constraint on its thermal history if the core has fully solidified (Dumoulin et al, ).…”
Section: Discussionmentioning
confidence: 99%