BEGIN:VCALENDAR VERSION:2.0 PRODID:-//EPSS//Seminars//EN BEGIN:VEVENT UID:seminar-15388@epss.ucla.edu DTSTAMP:20260522T193458Z DTSTART:20260520T153000Z DTEND:20260520T163000Z SUMMARY:Geophysics &\; Geology (245/287): Aaron Werlen –\; The Effect of Magma-Ocean–\;Atmosphere Interactions on the Compositions of Sub-Neptunes and Super-Earths DESCRIPTION:Speaker: Aaron Werlen Affiliation: EPSS\, UCLA Date: Wednesday\, May 20\, 2026 Time: 12:00 PM Abstract Atmospheric compositions of sub-Neptunes and super-Earths are often interpreted as tracers of formation history and volatile delivery. However\, many of these planets likely experience long-lived magma-ocean phases during which their atmospheres can chemically equilibrate with a molten silicate interior. In this talk\, I will show how magma-ocean--atmosphere interactions reshape atmospheric compositions and alter observable signatures. Using a global chemical equilibrium framework\, I demonstrate that key abundance ratios such as C/O and H2O are not simply inherited from disk accretion\, but can be substantially modified by interior processing. This has important implications for the interpretation of apparently water-rich worlds\, which may in fact be significantly drier than predicted by previous models. I will also present new extensions of the model including sulfur and nitrogen chemistry\, which provide additional diagnostics of volatile redistribution between atmosphere and interior and further strengthen the connection between interior evolution\, atmospheric composition\, and spectroscopic observations. URL:https://epss.ucla.edu/geophysics-geology-245-287-aaron-werlen-the-effect-of-magma-ocean-atmosphere-interactions-on-the-compositions-of-sub-neptunes-and-super-earths/ END:VEVENT END:VCALENDAR