Exoplanet atmospheres

Modelling the Circulation of Hot exoplanet Atmospheres (MOCHA): exhaustive comparison of 3D models for hot Jupiters

Copernicus Publications (2024)

Authors:

Nicolas Iro, Thomas Fauchez, Thaddeus Komacek, Emily Rauscher, Lucas Teinturier

Exploring the evolution of lava planets using planet-resolving models

Copernicus Publications (2024)

Authors:

Harrison Nicholls, Tim Lichtenberg, Raymond Pierrehumbert

Modeling Atmospheric Lines by the Exoplanet Community (MALBEC) Version 1.0: A CUISINES Radiative Transfer Intercomparison Project

The Planetary Science Journal, Volume 5, Issue 3, id.64, 15 pp (2024)

Authors:

Geronimo L. Villanueva, Thomas J. Fauchez, Vincent Kofman, Eleonora Alei, Elspeth K. H. Lee, Estelle Janin, Michael D. Himes, Jérémy Leconte, Michaela Leung, Sara Faggi, Mei Ting Mak, Denis E. Sergeev, Thea Kozakis, James Manners, Nathan Mayne, Edward W. Schwieterman, Alex R. Howe and Natasha Batalha

Abstract:

Radiative transfer (RT) models are critical in the interpretation of exoplanetary spectra, in simulating exoplanet climates, and when designing the specifications of future flagship observatories. However, most models differ in methodologies and input data, which can lead to significantly different spectra. In this paper, we present the experimental protocol of the Modeling Atmospheric Lines By the Exoplanet Community (MALBEC) project. MALBEC is an exoplanet model intercomparison project that belongs to the Climates Using Interactive Suites of Intercomparisons Nested for Exoplanet Studies framework, which aims to provide the exoplanet community with a large and diverse set of comparison and validation of models. The proposed protocol tests include a large set of initial participating RT models, a broad range of atmospheres (from hot Jupiters to temperate terrestrials), and several observation geometries, which would allow us to quantify and compare the differences between different RT models used by the exoplanetary community. Two types of tests are proposed: transit spectroscopy and direct imaging modeling, with results from the proposed tests to be published in dedicated follow-up papers. To encourage the community to join this comparison effort and as an example, we present simulation results for one specific transit case (GJ-1214 b), in which we find notable differences in how the various codes handle the discretization of the atmospheres (e.g., sub-layering), the treatment of molecular opacities (e.g., correlated-k, line-by-line) and the default spectroscopic repositories generally used by each model (e.g., HITRAN, HITEMP, ExoMol).

Reanalyzing Jupiter ISO/SWS Data through a More Recent Atmospheric Model

Copernicus Publications (2024)

Authors:

José Ribeiro, Pedro Machado, Santiago Pérez-Hoyos, João Dias, Patrick Irwin

Quenching-driven equatorial depletion and limb asymmetries in hot Jupiter atmospheres: WASP-96b example

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 529:2 (2024) 1776-1801

Authors:

Maria Zamyatina, Duncan A Christie, Eric Hébrard, Nathan J Mayne, Michael Radica, Jake Taylor, Harry Baskett, Ben Moore, Craig Lils, Denis E Sergeev, Eva-Maria Ahrer, James Manners, Krisztian Kohary, Adina D Feinstein