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Abstract
Sputnik Planitia is a nitrogen-ice-filled basin on Pluto. Its polygonal surface patterns have been previously explained as a result of solid-state convection with either an imposed heat flow or a temperature difference within the 10-km-thick ice layer. Neither explanation is satisfactory, because they do not exhibit surface topography with the observed pattern: flat polygons delimited by narrow troughs. Internal heating produces the observed patterns, but the heating source in such a setup remains enigmatic. Here we report the results of modelling the effects of sublimation at the surface. We find that sublimation-driven convection readily produces the observed polygonal structures if we assume a smaller heat flux (~0.3 mW m-2) at the base ofthe ice layer than the commonly accepted value of 2-3 mW m-2 (ref.). Sustaining this regime with the latter value is also possible, but would require a stronger viscosity contrast (~3,000) than the nominal value (~100) considered in this study.
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1 Physics and Astronomy, University of Exeter, Exeter, UK
2 LGL-TPE, Université de Lyon, ENSL, Univ Lyon-1, CNRS, Lyon, France
3 Laboratoire de Planétologie et Géodynamique, UMR 6112, Nantes Université, CNRS, Université; d'Angers, Nantes, France