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The composition of hot Jupiter atmospheres assembled within chemically evolved protoplanetary discs

Shota Notsu, Christian Eistrup, Catherine Walsh, Hideko Nomura

2020Monthly Notices of the Royal Astronomical Society44 citationsDOIOpen Access PDF

Abstract

ABSTRACT The radial-dependent positions of snowlines of abundant oxygen- and carbon-bearing molecules in protoplanetary discs will result in systematic radial variations in the carbon-to-oxygen (C/O) ratios in the gas and ice. This variation is proposed as a tracer of the formation location of gas-giant planets. However, disc chemistry can affect the C/O ratios in the gas and ice, thus potentially erasing the chemical fingerprint of snowlines in gas-giant atmospheres. We calculate the molecular composition of hot Jupiter atmospheres using elemental abundances extracted from a chemical kinetics model of a disc mid-plane, where we have varied the initial abundances and ionization rates. The models predict a wider diversity of possible atmospheres than those predicted using elemental ratios from snowlines only. As found in previous work, as the C/O ratio exceeds the solar value, the mixing ratio of CH4 increases in the lower atmosphere, and those of C2H2 and HCN increase mainly in the upper atmosphere. The mixing ratio of H2O correspondingly decreases. We find that hot Jupiters with C/O > 1 can only form between the CO2 and CH4 snowlines. Moreover, they can only form in a disc which has fully inherited interstellar abundances, and where negligible chemistry has occurred. Hence, carbon-rich planets are likely rare, unless efficient transport of hydrocarbon-rich ices via pebble drift to within the CH4 snowline is a common phenomenon. We predict combinations of C/O ratios and elemental abundances that can constrain gas-giant planet formation locations relative to snowline positions, and that can provide insight into the disc chemical history.

Topics & Concepts

PhysicsAstrobiologyHot JupiterProtoplanetary diskJupiter (rocket family)AstrochemistryAtmospheric compositionPlanetAstrophysicsAstronomyChemical compositionExoplanetInterstellar mediumGalaxySpacecraftSatelliteThermodynamicsAstro and Planetary ScienceAstrophysics and Star Formation StudiesStellar, planetary, and galactic studies
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