Exoplanet atmospheres

The Impact of Turbulent Vertical Mixing in the Venus Clouds on Chemical Tracers

ArXiv 2210.0924 (2022)

Authors:

Maxence Lefèvre, Emmanuel Marcq, Franck Lefèvre

Venus boundary layer dynamics: eolian transport and convective vortex

ArXiv 2210.09219 (2022)

CO2 ocean bistability on terrestrial exoplanets

Journal of Geophysical Research: Planets American Geophysical Union 127:10 (2022) e2022JE007456

Authors:

Robert J Graham, Tim Lichtenberg, Raymond T Pierrehumbert

Abstract:

Cycling of carbon dioxide between the atmosphere and interior of rocky planets can stabilize global climate and enable planetary surface temperatures above freezing over geologic time. However, variations in global carbon budget and unstable feedback cycles between planetary sub-systems may destabilize the climate of rocky exoplanets toward regimes unknown in the Solar System. Here, we perform clear-sky atmospheric radiative transfer and surface weathering simulations to probe the stability of climate equilibria for rocky, ocean-bearing exoplanets at instellations relevant for planetary systems in the outer regions of the circumstellar habitable zone. Our simulations suggest that planets orbiting G- and F-type stars (but not M-type stars) may display bistability between an Earth-like climate state with efficient carbon sequestration and an alternative stable climate equilibrium where CO₂ condenses at the surface and forms a blanket of either clathrate hydrate or liquid CO₂. At increasing instellation and with ineffective weathering, the latter state oscillates between cool, surface CO₂-condensing and hot, non-condensing climates. CO₂ bistable climates may emerge early in planetary history and remain stable for billions of years. The carbon dioxide-condensing climates follow an opposite trend in pCO₂ versus instellation compared to the weathering-stabilized planet population, suggesting the possibility of observational discrimination between these distinct climate categories.

APPLESOSS: A Producer of ProfiLEs for SOSS. Application to the NIRISS SOSS Mode

Publications of the Astronomical Society of the Pacific IOP Publishing 134:1040 (2022) 104502

Authors:

Michael Radica, Loïc Albert, Jake Taylor, David Lafrenière, Louis-Philippe Coulombe, Antoine Darveau-Bernier, René Doyon, Neil Cook, Nicolas Cowan, Néstor Espinoza, Doug Johnstone, Lisa Kaltenegger, Caroline Piaulet, Arpita Roy, Geert Jan Talens

Greater Climate Sensitivity and Variability on TRAPPIST-1e than Earth

The Astrophysical Journal American Astronomical Society 938:2 (2022) 114

Authors:

Assaf Hochman, Paolo De Luca, Thaddeus D Komacek