The THOR + HELIOS general circulation model: multiwavelength radiative transfer with accurate scattering by clouds/hazes
The THOR + HELIOS general circulation model: multiwavelength radiative transfer with accurate scattering by clouds/hazes
General circulation models (GCMs) provide context for interpreting multiwavelength, multiphase data of the atmospheres of tidally locked exoplanets. In the current study, the non-hydrostatic THOR GCM is coupled with the HELIOS radiative transfer solver for the first time, supported by an equilibrium chemistry solver (FastChem), opacity calculator (HELIOS-K), and Mie scattering code (LX-MIE). To accurately treat the scattering of radiation by medium-sized to large aerosols/condensates, improved two-stream radiative transfer is implemented within a GCM for the first time. Multiple scattering is implemented using a Thomas algorithm formulation of the two-stream flux solutions, which decreases the computational time by about 2 orders of magnitude compared to the iterative method used in past versions of HELIOS. As a case study, we present four GCMs of the hot Jupiter WASP-43b, where we compare the temperature, velocity, entropy, and streamfunction, as well as the synthetic spectra and phase curves, of runs using regular versus improved two-stream radiative transfer and isothermal versus non-isothermal layers. While the global climate is qualitatively robust, the synthetic spectra and phase curves are sensitive to these details. A THOR + HELIOS WASP-43b GCM (horizontal resolution of about 4 deg on the sphere and with 40 radial points) with multiwavelength radiative transfer (30 k-table bins) running for 3000 Earth days (864 000 time-steps) takes about 19–26 d to complete depending on the type of GPU.
3759-3787
Deitrick, Russell
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Heng, Kevin
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Schroffenegger, Urs
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Kitzmann, Daniel
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Grimm, Simon L.
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Malik, Matej
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Mendonça, João M.
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Morris, Brett M.
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12 March 2022
Deitrick, Russell
7e0f9786-935b-4c3b-8a57-1e8b7b85b075
Heng, Kevin
11e4460d-9575-412c-b350-53e2ef459056
Schroffenegger, Urs
afe4224c-50d6-4f01-9f69-5b2bdcc269fb
Kitzmann, Daniel
af1659b8-c27f-4d1b-b7a2-afaeb944af07
Grimm, Simon L.
2e304876-a102-4be9-a7d0-cd58bc71bd5b
Malik, Matej
3be444ea-4bfd-4f60-81d7-310298714867
Mendonça, João M.
cb29fe08-eb94-4fad-8eba-eac1c5de491b
Morris, Brett M.
3b4ef40b-0a97-4c7a-b616-e70218353e0b
Deitrick, Russell, Heng, Kevin, Schroffenegger, Urs, Kitzmann, Daniel, Grimm, Simon L., Malik, Matej, Mendonça, João M. and Morris, Brett M.
(2022)
The THOR + HELIOS general circulation model: multiwavelength radiative transfer with accurate scattering by clouds/hazes.
Monthly Notices Of The Royal Astronomical Society, 512 (3), .
(doi:10.1093/mnras/stac680).
Abstract
General circulation models (GCMs) provide context for interpreting multiwavelength, multiphase data of the atmospheres of tidally locked exoplanets. In the current study, the non-hydrostatic THOR GCM is coupled with the HELIOS radiative transfer solver for the first time, supported by an equilibrium chemistry solver (FastChem), opacity calculator (HELIOS-K), and Mie scattering code (LX-MIE). To accurately treat the scattering of radiation by medium-sized to large aerosols/condensates, improved two-stream radiative transfer is implemented within a GCM for the first time. Multiple scattering is implemented using a Thomas algorithm formulation of the two-stream flux solutions, which decreases the computational time by about 2 orders of magnitude compared to the iterative method used in past versions of HELIOS. As a case study, we present four GCMs of the hot Jupiter WASP-43b, where we compare the temperature, velocity, entropy, and streamfunction, as well as the synthetic spectra and phase curves, of runs using regular versus improved two-stream radiative transfer and isothermal versus non-isothermal layers. While the global climate is qualitatively robust, the synthetic spectra and phase curves are sensitive to these details. A THOR + HELIOS WASP-43b GCM (horizontal resolution of about 4 deg on the sphere and with 40 radial points) with multiwavelength radiative transfer (30 k-table bins) running for 3000 Earth days (864 000 time-steps) takes about 19–26 d to complete depending on the type of GPU.
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stac680
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Accepted/In Press date: 27 February 2022
Published date: 12 March 2022
Identifiers
Local EPrints ID: 497505
URI: http://eprints.soton.ac.uk/id/eprint/497505
ISSN: 1365-2966
PURE UUID: 18743923-b6b4-4cc0-a72d-d82c7701c70c
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Date deposited: 24 Jan 2025 17:32
Last modified: 22 Aug 2025 02:46
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Author:
Russell Deitrick
Author:
Kevin Heng
Author:
Urs Schroffenegger
Author:
Daniel Kitzmann
Author:
Simon L. Grimm
Author:
Matej Malik
Author:
João M. Mendonça
Author:
Brett M. Morris
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