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HELIOS: an open-source, GPU-accelerated radiative transfer code for self-consistent exoplanetary atmospheres

HELIOS: an open-source, GPU-accelerated radiative transfer code for self-consistent exoplanetary atmospheres
HELIOS: an open-source, GPU-accelerated radiative transfer code for self-consistent exoplanetary atmospheres
We present the open-source radiative transfer code named HELIOS, which is constructed for studying exoplanetary atmospheres. In its initial version, the model atmospheres of HELIOS are one-dimensional and plane-parallel, and the equation of radiative transfer is solved in the two-stream approximation with nonisotropic scattering. A small set of the main infrared absorbers is employed, computed with the opacity calculator HELIOS-K and combined using a correlated-k approximation. The molecular abundances originate from validated analytical formulae for equilibrium chemistry. We compare HELIOS with the work of Miller-Ricci & Fortney using a model of GJ 1214b, and perform several tests, where we find: model atmospheres with single-temperature layers struggle to converge to radiative equilibrium; k-distribution tables constructed with ≥ 0.01 cm-1 resolution in the opacity function (≤ 10points per wavenumber bin) may result in errors ≥ 1%–10% in the synthetic spectra; and a diffusivity factor of 2 approximates well the exact radiative transfer solution in the limit of pure absorption. We construct "null-hypothesis" models (chemical equilibrium, radiative equilibrium, and solar elemental abundances) for six hot Jupiters. We find that the dayside emission spectra of HD 189733b and WASP-43b are consistent with the null hypothesis, while the latter consistently underpredicts the observed fluxes of WASP-8b, WASP-12b, WASP-14b, and WASP-33b. We demonstrate that our results are somewhat insensitive to the choice of stellar models (blackbody, Kurucz, or PHOENIX) and metallicity, but are strongly affected by higher carbon-to-oxygen ratios. The code is publicly available as part of the Exoclimes Simulation Platform (exoclime.net).
1538-3881
Malik, Matej
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Grosheintz, Luc
8e9565c4-ad04-49e4-ac42-4113fea6a255
Mendonça, João M.
cb29fe08-eb94-4fad-8eba-eac1c5de491b
Grimm, Simon L.
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Lavie, Baptiste
581e8163-1b17-4fe4-a029-7d11396d1db3
Kitzmann, Daniel
af1659b8-c27f-4d1b-b7a2-afaeb944af07
Tsai, Shang-Min
fd5f43d2-042b-44a2-bf50-c556b74ad84e
Burrows, Adam
03917efd-08c5-4573-915d-377e40b4a8fc
Kreidberg, Laura
f14c8afc-1796-4319-a877-46e17f6d18e6
Bedell, Megan
97326a8d-1e51-402c-9901-f1c01f4bd261
Bean, Jacob L.
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Stevenson, Kevin B.
8302461c-f0dc-4382-a216-46c714de47ad
Heng, Kevin
11e4460d-9575-412c-b350-53e2ef459056
Malik, Matej
3be444ea-4bfd-4f60-81d7-310298714867
Grosheintz, Luc
8e9565c4-ad04-49e4-ac42-4113fea6a255
Mendonça, João M.
cb29fe08-eb94-4fad-8eba-eac1c5de491b
Grimm, Simon L.
2e304876-a102-4be9-a7d0-cd58bc71bd5b
Lavie, Baptiste
581e8163-1b17-4fe4-a029-7d11396d1db3
Kitzmann, Daniel
af1659b8-c27f-4d1b-b7a2-afaeb944af07
Tsai, Shang-Min
fd5f43d2-042b-44a2-bf50-c556b74ad84e
Burrows, Adam
03917efd-08c5-4573-915d-377e40b4a8fc
Kreidberg, Laura
f14c8afc-1796-4319-a877-46e17f6d18e6
Bedell, Megan
97326a8d-1e51-402c-9901-f1c01f4bd261
Bean, Jacob L.
4eab4508-8729-4d37-8667-0995f64e0580
Stevenson, Kevin B.
8302461c-f0dc-4382-a216-46c714de47ad
Heng, Kevin
11e4460d-9575-412c-b350-53e2ef459056

Malik, Matej, Grosheintz, Luc, Mendonça, João M., Grimm, Simon L., Lavie, Baptiste, Kitzmann, Daniel, Tsai, Shang-Min, Burrows, Adam, Kreidberg, Laura, Bedell, Megan, Bean, Jacob L., Stevenson, Kevin B. and Heng, Kevin (2017) HELIOS: an open-source, GPU-accelerated radiative transfer code for self-consistent exoplanetary atmospheres. The Astronomical Journal, 153 (2), [56]. (doi:10.3847/1538-3881/153/2/56).

Record type: Article

Abstract

We present the open-source radiative transfer code named HELIOS, which is constructed for studying exoplanetary atmospheres. In its initial version, the model atmospheres of HELIOS are one-dimensional and plane-parallel, and the equation of radiative transfer is solved in the two-stream approximation with nonisotropic scattering. A small set of the main infrared absorbers is employed, computed with the opacity calculator HELIOS-K and combined using a correlated-k approximation. The molecular abundances originate from validated analytical formulae for equilibrium chemistry. We compare HELIOS with the work of Miller-Ricci & Fortney using a model of GJ 1214b, and perform several tests, where we find: model atmospheres with single-temperature layers struggle to converge to radiative equilibrium; k-distribution tables constructed with ≥ 0.01 cm-1 resolution in the opacity function (≤ 10points per wavenumber bin) may result in errors ≥ 1%–10% in the synthetic spectra; and a diffusivity factor of 2 approximates well the exact radiative transfer solution in the limit of pure absorption. We construct "null-hypothesis" models (chemical equilibrium, radiative equilibrium, and solar elemental abundances) for six hot Jupiters. We find that the dayside emission spectra of HD 189733b and WASP-43b are consistent with the null hypothesis, while the latter consistently underpredicts the observed fluxes of WASP-8b, WASP-12b, WASP-14b, and WASP-33b. We demonstrate that our results are somewhat insensitive to the choice of stellar models (blackbody, Kurucz, or PHOENIX) and metallicity, but are strongly affected by higher carbon-to-oxygen ratios. The code is publicly available as part of the Exoclimes Simulation Platform (exoclime.net).

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1606.05474v2 - Accepted Manuscript
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Accepted/In Press date: 30 November 2016
Published date: 9 January 2017

Identifiers

Local EPrints ID: 496772
URI: http://eprints.soton.ac.uk/id/eprint/496772
DOI: doi:10.3847/1538-3881/153/2/56
ISSN: 1538-3881
PURE UUID: cd51a290-e56c-4e73-8f53-60ea51f9258a
ORCID for João M. Mendonça: ORCID iD orcid.org/0000-0002-6907-4476

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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: Luc Grosheintz
Author: João M. Mendonça ORCID iD
Author: Simon L. Grimm
Author: Baptiste Lavie
Author: Daniel Kitzmann
Author: Shang-Min Tsai
Author: Adam Burrows
Author: Laura Kreidberg
Author: Megan Bedell
Author: Jacob L. Bean
Author: Kevin B. Stevenson
Author: Kevin Heng

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