Self-luminous and irradiated exoplanetary atmospheres explored with HELIOS
Self-luminous and irradiated exoplanetary atmospheres explored with HELIOS
We present new methodological features and physical ingredients included in the one-dimensional radiative transfer code HELIOS, improving the hemispheric two-stream formalism. We conduct a thorough intercomparison survey with several established forward models, including COOLTLUSTY and PHOENIX, and find satisfactory consistency with their results. Then, we explore the impact of (i) different groups of opacity sources, (ii) a stellar path length adjustment, and (iii) a scattering correction on self-consistently calculated atmospheric temperatures and planetary emission spectra. First, we observe that temperature–pressure (T–P) profiles are very sensitive to the opacities included, with metal oxides, hydrides, and alkali atoms (and ionized hydrogen) playing an important role in the absorption of shortwave radiation (in very hot surroundings). Moreover, if these species are sufficiently abundant, they are likely to induce nonmonotonic T–P profiles. Second, without the stellar path length adjustment, the incoming stellar flux is significantly underestimated for zenith angles above 80°, which somewhat affects the upper atmospheric temperatures and the planetary emission. Third, the scattering correction improves the accuracy of the computation of the reflected stellar light by ∼10%. We use HELIOS to calculate a grid of cloud-free atmospheres in radiative–convective equilibrium for self-luminous planets for a range of effective temperatures, surface gravities, metallicities, and C/O ratios to be used by planetary evolution studies. Furthermore, we calculate dayside temperatures and secondary eclipse spectra for a sample of exoplanets for varying chemistry and heat redistribution. These results may be used to make predictions on the feasibility of atmospheric characterizations with future observations.
Malik, Matej
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Kitzmann, Daniel
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Mendonça, João M.
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Grimm, Simon L.
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Marleau, Gabriel-Dominique
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Linder, Esther F.
f2239471-3c7b-4b95-9704-79cbbc1f5147
Tsai, Shang-Min
fd5f43d2-042b-44a2-bf50-c556b74ad84e
Heng, Kevin
11e4460d-9575-412c-b350-53e2ef459056
9 April 2019
Malik, Matej
3be444ea-4bfd-4f60-81d7-310298714867
Kitzmann, Daniel
af1659b8-c27f-4d1b-b7a2-afaeb944af07
Mendonça, João M.
cb29fe08-eb94-4fad-8eba-eac1c5de491b
Grimm, Simon L.
2e304876-a102-4be9-a7d0-cd58bc71bd5b
Marleau, Gabriel-Dominique
7a38553c-1e5c-404a-950b-403a62715d6e
Linder, Esther F.
f2239471-3c7b-4b95-9704-79cbbc1f5147
Tsai, Shang-Min
fd5f43d2-042b-44a2-bf50-c556b74ad84e
Heng, Kevin
11e4460d-9575-412c-b350-53e2ef459056
Malik, Matej, Kitzmann, Daniel, Mendonça, João M., Grimm, Simon L., Marleau, Gabriel-Dominique, Linder, Esther F., Tsai, Shang-Min and Heng, Kevin
(2019)
Self-luminous and irradiated exoplanetary atmospheres explored with HELIOS.
The Astronomical Journal, 157 (5), [170].
(doi:10.3847/1538-3881/ab1084).
Abstract
We present new methodological features and physical ingredients included in the one-dimensional radiative transfer code HELIOS, improving the hemispheric two-stream formalism. We conduct a thorough intercomparison survey with several established forward models, including COOLTLUSTY and PHOENIX, and find satisfactory consistency with their results. Then, we explore the impact of (i) different groups of opacity sources, (ii) a stellar path length adjustment, and (iii) a scattering correction on self-consistently calculated atmospheric temperatures and planetary emission spectra. First, we observe that temperature–pressure (T–P) profiles are very sensitive to the opacities included, with metal oxides, hydrides, and alkali atoms (and ionized hydrogen) playing an important role in the absorption of shortwave radiation (in very hot surroundings). Moreover, if these species are sufficiently abundant, they are likely to induce nonmonotonic T–P profiles. Second, without the stellar path length adjustment, the incoming stellar flux is significantly underestimated for zenith angles above 80°, which somewhat affects the upper atmospheric temperatures and the planetary emission. Third, the scattering correction improves the accuracy of the computation of the reflected stellar light by ∼10%. We use HELIOS to calculate a grid of cloud-free atmospheres in radiative–convective equilibrium for self-luminous planets for a range of effective temperatures, surface gravities, metallicities, and C/O ratios to be used by planetary evolution studies. Furthermore, we calculate dayside temperatures and secondary eclipse spectra for a sample of exoplanets for varying chemistry and heat redistribution. These results may be used to make predictions on the feasibility of atmospheric characterizations with future observations.
More information
Accepted/In Press date: 15 March 2019
Published date: 9 April 2019
Identifiers
Local EPrints ID: 496767
URI: http://eprints.soton.ac.uk/id/eprint/496767
ISSN: 1538-3881
PURE UUID: 6cb229ae-437e-4f3d-9041-d49906f6cff2
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Date deposited: 08 Jan 2025 05:21
Last modified: 10 Jan 2025 03:21
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Contributors
Author:
Matej Malik
Author:
Daniel Kitzmann
Author:
João M. Mendonça
Author:
Simon L. Grimm
Author:
Gabriel-Dominique Marleau
Author:
Esther F. Linder
Author:
Shang-Min Tsai
Author:
Kevin Heng
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