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arXiv:2208.07836 [astro-ph.EP]AbstractReferencesReviewsResources

PICASO 3.0: A One-Dimensional Climate Model for Giant Planets and Brown Dwarfs

Sagnick Mukherjee, Natasha E. Batalha, Jonathan J. Fortney, Mark S. Marley

Published 2022-08-16Version 1

Upcoming James Webb Space Telescope (JWST) observations will allow us to study exoplanet and brown dwarf atmospheres in great detail. The physical interpretation of these upcoming high signal-to-noise observations requires precise atmospheric models of exoplanets and brown dwarfs. While several one-dimensional and three-dimensional atmospheric models have been developed in the past three decades, these models have often relied on simplified assumptions like chemical equilibrium and are also often not open-source, which limits their usage and development by the wider community. We present a python-based one-dimensional atmospheric radiative-convective equilibrium model. This model has heritage from the Fortran-based code (Marley et al.,1996} which has been widely used to model the atmospheres of Solar System objects, brown dwarfs, and exoplanets. In short, the basic capability of the original model is to compute the atmospheric state of the object under radiative-convective equilibrium given its effective or internal temperature, gravity, and host--star properties (if relevant). In the new model, which has been included within the well-utilized code-base PICASO, we have added these original features as well as the new capability of self-consistently treating disequilibrium chemistry. This code is widely applicable to Hydrogen-dominated atmospheres (e.g., brown dwarfs and giant planets).

Comments: Under review in ApJ; posting after incorporating the first referee response; official code release will coincide with paper acceptance; comments welcome; 29 Pages; 15 Figures; 3 Tables
Categories: astro-ph.EP, astro-ph.SR
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