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Superabundance of Exoplanet Sub-Neptunes Explained by Fugacity Crisis

Transiting planets with radii 2-3 $R_\bigoplus$ are much more numerous than larger planets. We propose that this drop-off is so abrupt because at $R$ $\sim$ 3 $R_\bigoplus$, base-of-atmosphere pressure is high enough for the atmosphere to readily dissolve into magma, and this sequestration acts as a strong brake on further growth. The viability of this idea is demonstrated using a simple model. Our results support extensive magma-atmosphere equilibration on sub-Neptunes, with numerous implications for sub-Neptune formation and atmospheric chemistry.

preprint2019arXivOpen access
Edwin S. KiteBruce Fegley Jr.Laura SchaeferEric B. Ford
physics.geo-phastro-ph.EP
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Edwin S. KiteBruce Fegley Jr.Laura SchaeferEric B. Ford

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