Exoplanet atmospheres: publications

Large Interferometer For Exoplanets (LIFE)

Astronomy & Astrophysics EDP Sciences 664 (2022) a21

Authors:

SP Quanz, M Ottiger, E Fontanet, J Kammerer, F Menti, F Dannert, A Gheorghe, O Absil, VS Airapetian, E Alei, R Allart, D Angerhausen, S Blumenthal, LA Buchhave, J Cabrera, Ó Carrión-González, G Chauvin, WC Danchi, C Dandumont, D Defrére, C Dorn, D Ehrenreich, S Ertel, M Fridlund, A García Muñoz, C Gascón, JH Girard, A Glauser, JL Grenfell, G Guidi, J Hagelberg, R Helled, MJ Ireland, M Janson, RK Kopparapu, J Korth, T Kozakis, S Kraus, A Léger, L Leedjärv, T Lichtenberg, J Lillo-Box, H Linz, R Liseau, J Loicq, V Mahendra, F Malbet, J Mathew, B Mennesson, MR Meyer, L Mishra, K Molaverdikhani, L Noack, AV Oza, E Pallé, H Parviainen, A Quirrenbach, H Rauer, I Ribas, M Rice, A Romagnolo, S Rugheimer, EW Schwieterman, E Serabyn, S Sharma, KG Stassun, J Szulágyi, HS Wang, F Wunderlich, MC Wyatt

Spatially resolving the terminator: variation of Fe, temperature, and winds in WASP-76 b across planetary limbs and orbital phase

Monthly Notices of the Royal Astronomical Society 91̽�� University Press (OUP) 515:1 (2022) 749-766

Authors:

Siddharth Gandhi, Aurora Kesseli, Ignas Snellen, Matteo Brogi, Joost P Wardenier, Vivien Parmentier, Luis Welbanks, Arjun B Savel

Three-dimensional structure of thermal waves in Venus’ mesosphere from ground-based observations

Icarus Elsevier 387 (2022) 115187

Authors:

Rohini S Giles, Thomas K Greathouse, Patrick Irwin, Thérèse Encrenaz, Amanda Brecht

Abstract:

High spectral resolution observations of Venus were obtained with the TEXES instrument at NASA’s Infrared Telescope Facility. These observations focus on a CO2 absorption feature at 791.4 cm-1 as the shape of this absorption feature can be used to retrieve the vertical temperature profile in Venus’ mesosphere. By scan-mapping the planet, we are able to build up three-dimensional temperature maps of Venus’ atmosphere, covering one Earth-facing hemisphere and an altitude range of 60–83 km. A temperature map from February 12, 2019 clearly shows the three-dimensional structure of a planetary-scale thermal wave. This wave pattern appears strongest in the mid-latitudes of Venus, has a zonal wavenumber of 2–4 and the wave fronts tilt eastward with altitude at an angle of 8–15 degrees per km. This is consistent with a thermal tide propagating upwards from Venus’ upper cloud decks. Ground-based observations provide the opportunity to study Venus’ temperature structure on an ongoing basis.

Prevalence of short-lived radioactive isotopes across exoplanetary systems inferred from polluted white dwarfs

Monthly Notices of the Royal Astronomical Society 91̽�� University Press (OUP) 515:1 (2022) 395-406

Authors:

Alfred Curry, Amy Bonsor, Tim Lichtenberg, Oliver Shorttle

Variability in the Uranian atmosphere: Uranus' north polar hood

Copernicus Publications (2022)

Authors:

Arjuna James, Patrick Irwin, Jack Dobinson, Mike Wong, Amy Simon, Erich Karkoschka, Martin Tomasko, Lawrence Sromovsky

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