Global chemical transport on hot Jupiters: insights from the 2D VULCAN photochemical model
Global chemical transport on hot Jupiters: insights from the 2D VULCAN photochemical model
The atmospheric dynamics of tidally locked hot Jupiters is characterized by strong equatorial winds. Understanding the interaction between global circulation and chemistry is crucial in atmospheric studies and interpreting observations. Two-dimensional (2D) photochemical transport models shed light on how the atmospheric composition depends on circulation. In this paper, we introduce the 2D photochemical (horizontal and vertical) transport model, VULCAN 2D, which improves on the pseudo-2D approaches by allowing for nonuniform zonal winds. We extensively validate our VULCAN 2D with analytical solutions and benchmark comparisons. Applications to HD 189733 b and HD 209458 b reveal a transition in mixing regimes: horizontal transport predominates below ∼0.1 mbar, while vertical mixing is more important at higher altitudes above 0.1 mbar. Motivated by the previously inferred carbon-rich atmosphere, we find that HD 209458 b with supersolar carbon-to-oxygen ratio (C/O) exhibits pronounced C
2H
4 absorption on the morning limb but not on the evening limb, due to horizontal transport from the nightside. We discuss when a pseudo-2D approach is a valid assumption and its inherent limitations. Finally, we demonstrate the effect of horizontal transport in transmission observations and its impact on the morning−evening limb asymmetry with synthetic spectra, highlighting the need to consider global transport when interpreting exoplanet atmospheres.
Tsai, Shang-Min
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Parmentier, Vivien
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Mendonça, João M.
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Tan, Xianyu
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Deitrick, Russell
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Hammond, Mark
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Savel, Arjun B.
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Zhang, Xi
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Pierrehumbert, Raymond T.
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Schwieterman, Edward W.
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1 March 2024
Tsai, Shang-Min
fd5f43d2-042b-44a2-bf50-c556b74ad84e
Parmentier, Vivien
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Mendonça, João M.
cb29fe08-eb94-4fad-8eba-eac1c5de491b
Tan, Xianyu
ad313a57-e4e8-48e8-ad1c-8428ec0821a0
Deitrick, Russell
7e0f9786-935b-4c3b-8a57-1e8b7b85b075
Hammond, Mark
9555fec5-3324-4f5c-bc96-863ff17f7242
Savel, Arjun B.
dc0f9084-d91d-4b9d-8728-a4836f9b5fd0
Zhang, Xi
cf867d1b-ba43-4c31-9c21-7730573f8ff6
Pierrehumbert, Raymond T.
47a7fbe4-0321-4d74-9ee9-0f72bdefaaf6
Schwieterman, Edward W.
7446319f-5b3c-4a94-acea-4fdc144092d7
Tsai, Shang-Min, Parmentier, Vivien, Mendonça, João M., Tan, Xianyu, Deitrick, Russell, Hammond, Mark, Savel, Arjun B., Zhang, Xi, Pierrehumbert, Raymond T. and Schwieterman, Edward W.
(2024)
Global chemical transport on hot Jupiters: insights from the 2D VULCAN photochemical model.
The Astrophysical Journal, 963 (1), [41].
(doi:10.3847/1538-4357/ad1600).
Abstract
The atmospheric dynamics of tidally locked hot Jupiters is characterized by strong equatorial winds. Understanding the interaction between global circulation and chemistry is crucial in atmospheric studies and interpreting observations. Two-dimensional (2D) photochemical transport models shed light on how the atmospheric composition depends on circulation. In this paper, we introduce the 2D photochemical (horizontal and vertical) transport model, VULCAN 2D, which improves on the pseudo-2D approaches by allowing for nonuniform zonal winds. We extensively validate our VULCAN 2D with analytical solutions and benchmark comparisons. Applications to HD 189733 b and HD 209458 b reveal a transition in mixing regimes: horizontal transport predominates below ∼0.1 mbar, while vertical mixing is more important at higher altitudes above 0.1 mbar. Motivated by the previously inferred carbon-rich atmosphere, we find that HD 209458 b with supersolar carbon-to-oxygen ratio (C/O) exhibits pronounced C
2H
4 absorption on the morning limb but not on the evening limb, due to horizontal transport from the nightside. We discuss when a pseudo-2D approach is a valid assumption and its inherent limitations. Finally, we demonstrate the effect of horizontal transport in transmission observations and its impact on the morning−evening limb asymmetry with synthetic spectra, highlighting the need to consider global transport when interpreting exoplanet atmospheres.
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Accepted/In Press date: 13 December 2023
e-pub ahead of print date: 27 February 2024
Published date: 1 March 2024
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© 2024. The Author(s). Published by the American Astronomical Society.
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Local EPrints ID: 497019
URI: http://eprints.soton.ac.uk/id/eprint/497019
ISSN: 0004-637X
PURE UUID: aeec07b2-a15a-4701-b7ed-21e4fc52f996
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Date deposited: 09 Jan 2025 18:06
Last modified: 10 Jan 2025 03:21
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Contributors
Author:
Shang-Min Tsai
Author:
Vivien Parmentier
Author:
João M. Mendonça
Author:
Xianyu Tan
Author:
Russell Deitrick
Author:
Mark Hammond
Author:
Arjun B. Savel
Author:
Xi Zhang
Author:
Raymond T. Pierrehumbert
Author:
Edward W. Schwieterman
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