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Convective dynamics and disequilibrium chemistry in the atmospheres of giant planets and brown dwarfs

By SpaceRef Editor
February 13, 2018
Filed under , , ,

Baylee Bordwell, Benjamin P. Brown, Jeffrey S. Oishi
(Submitted on 8 Feb 2018)

Disequilibrium chemical processes have a large effect upon the spectra of substellar objects. To study these effects, dynamical disequilibrium has been parameterized using the quench and eddy diffusion approximations, but little work has been done to explore how these approximations perform under realistic planetary conditions in different dynamical regimes. As a first step in addressing this problem, we study the localized, small scale convective dynamics of planetary atmospheres by direct numerical simulation of fully compressible hydrodynamics with reactive tracers using the Dedalus code. Using polytropically-stratified, plane parallel atmospheres in 2- and 3-D, we explore the quenching behavior of different abstract chemical species as a function of the dynamical conditions of the atmosphere as parameterized by the Rayleigh number. We find that in both 2- and 3-D, chemical species quench deeper than would be predicted based on simple mixing length arguments. Instead, it is necessary to employ length scales based on the chemical equilibrium profile of the reacting species in order to predict quench points and perform chemical kinetics modeling in 1-D. Based on the results of our simulations, we provide a new length scale, derived from the chemical scale height, which can be used to perform these calculations. This length scale is simple to calculate from known chemical data and makes reasonable predictions for our dynamical simulations.

Comments:    12 pages, 9 figures; Published in the Astrophysical Journal
Subjects:    Earth and Planetary Astrophysics (astro-ph.EP)
Journal reference:    Baylee Bordwell et al 2018 ApJ 854 8
DOI:    10.3847/1538-4357/aaa551
Cite as:    arXiv:1802.03026 [astro-ph.EP] (or arXiv:1802.03026v1 [astro-ph.EP] for this version)
Submission history
From: Baylee Bordwell 
[v1] Thu, 8 Feb 2018 19:13:23 GMT (2431kb,D)

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