EPS Colloquium – Hilke Schlichting Professor in Earth, Planetary and Space Sciences and Dean for Research at UCLA

Rocky planet formation with primordial H2-rich atmospheres: Implications for Super-Earths, Sub-Neptunes and Earth

Super-Earths and sub-Neptunes are the most abundant exoplanets discovered to date. Recent models of atmospheric evolution and erosion by core-powered mass loss and/or photo-evaporation suggest that these two populations of exoplanets might have been born as one. In my talk, I will explore the question as to how primary, hydrogen-rich atmospheres influence the physical evolution and chemical composition of super-Earths and sub-Neptune exoplanets and as to whether Earth may also have formed from planetary embryos with H2-rich primary atmospheres. Since for most exoplanets, we will only be able to probe atmospheric chemical compositions, understanding their core–mantle–atmosphere connections is likely crucial for correctly inferring the physical properties of their underlaying mantles and cores, which make up the bulk of these planets by mass.

Professor Hilke Schlichting Webpage: https://epss.ucla.edu/people/faculty/833/; https://faculty.epss.ucla.edu/~hilke/Hilke/Welcome.html

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