Exoplanet atmospheres

A Nondetection of Iron in the First High-resolution Emission Study of the Lava Planet 55 Cnc e

The Astronomical Journal American Astronomical Society 166:4 (2023) 155

Authors:

Kaitlin C Rasmussen, Miles H Currie, Celeste Hagee, Christiaan van Buchem, Matej Malik, Arjun B Savel, Matteo Brogi, Emily Rauscher, Victoria Meadows, Megan Mansfield, Eliza M-R Kempton, Jean-Michel Desert, Joost P Wardenier, Lorenzo Pino, Michael Line, Vivien Parmentier, Andreas Seifahrt, David Kasper, Madison Brady, Jacob L Bean

Characterizing a World Within the Hot-Neptune Desert: Transit Observations of LTT 9779 b with the Hubble Space Telescope/WFC3

The Astronomical Journal American Astronomical Society 166:4 (2023) 158

Authors:

Billy Edwards, Quentin Changeat, Angelos Tsiaras, Andrew Allan, Patrick Behr, Simone R Hagey, Michael D Himes, Sushuang Ma, Keivan G Stassun, Luis Thomas, Alexandra Thompson, Aaron Boley, Luke Booth, Jeroen Bouwman, Kevin France, Nataliea Lowson, Annabella Meech, Caprice L Phillips, Aline A Vidotto, Kai Hou Yip, Michelle Bieger, Amélie Gressier, Estelle Janin, Ing-Guey Jiang, Pietro Leonardi, Subhajit Sarkar, Nour Skaf, Jake Taylor, Ming Yang, Derek Ward-Thompson

Another look at the dayside spectra of WASP-43b and HD 209458b: Are there scattering clouds?

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 526:2 (2023) 2133-2140

Authors:

Jake Taylor, Vivien Parmentier

Jupiter science enabled by ESA’s Jupiter Icy Moons Explorer

Space Science Reviews Springer 219 (2023) 53

Authors:

Leigh N Fletcher, Thibault Cavalié, Davide Grassi, Ricardo Hueso, Luisa M Lara, Yohai Kaspi, Eli Galanti, Thomas K Greathouse, Philippa M Molyneux, Marina Galand, Claire Vallat, Olivier Witasse, Rosario Lorente, Paul Hartogh, François Poulet, Yves Langevin, Pasquale Palumbo, G Randall Gladstone, Kurt D Retherford, Michele K Dougherty, Jan-Erik Wahlund, Stas Barabash, Luciano Iess, Lorenzo Bruzzone, Hauke Hussmann, Leonid I Gurvits, Ondřej Santolik, Ivana Kolmasova, Georg Fischer, Ingo Müller-Wodarg, Giuseppe Piccioni, Thierry Fouchet, Jean-Claude Gérard, Agustin Sánchez-Lavega, Patrick GJ Irwin, Denis Grodent, Francesca Altieri, Alessandro Mura, Pierre Drossart, Josh Kammer, Rohini Giles, Stéphanie Cazaux, Geraint Jones, Maria Smirnova, Emmanuel Lellouch, Alexander S Medvedev, Raphael Moreno, Ladislav Rezac, Athena Coustenis, Marc Costa

Abstract:

ESA's Jupiter Icy Moons Explorer (JUICE) will provide a detailed investigation of the Jovian system in the 2030s, combining a suite of state-of-the-art instruments with an orbital tour tailored to maximise observing opportunities. We review the Jupiter science enabled by the JUICE mission, building on the legacy of discoveries from the Galileo, Cassini, and Juno missions, alongside ground- and space-based observatories. We focus on remote sensing of the climate, meteorology, and chemistry of the atmosphere and auroras from the cloud-forming weather layer, through the upper troposphere, into the stratosphere and ionosphere. The Jupiter orbital tour provides a wealth of opportunities for atmospheric and auroral science: global perspectives with its near-equatorial and inclined phases, sampling all phase angles from dayside to nightside, and investigating phenomena evolving on timescales from minutes to months. The remote sensing payload spans far-UV spectroscopy (50-210 nm), visible imaging (340-1080 nm), visible/near-infrared spectroscopy (0.49-5.56 μm), and sub-millimetre sounding (near 530-625 GHz and 1067-1275 GHz). This is coupled to radio, stellar, and solar occultation opportunities to explore the atmosphere at high vertical resolution; and radio and plasma wave measurements of electric discharges in the Jovian atmosphere and auroras. Cross-disciplinary scientific investigations enable JUICE to explore coupling processes in giant planet atmospheres, to show how the atmosphere is connected to (i) the deep circulation and composition of the hydrogen-dominated interior; and (ii) to the currents and charged particle environments of the external magnetosphere. JUICE will provide a comprehensive characterisation of the atmosphere and auroras of this archetypal giant planet.

Temporal variations in vertical cloud structure of Jupiter’s Great Red Spot, its surroundings and Oval BA from HST/WFC3 imaging

Journal of Geophysical Research: Planets Wiley 128:9 (2023) e2022JE007427

Authors:

Asier Anguiano‐Arteaga, Santiago Pérez‐Hoyos, Agustín Sánchez‐Lavega, José Francisco Sanz‐Requena, Patrick GJ Irwin

Abstract:

In this study, we present the evolution of the properties and vertical distribution of the hazes in Jupiter's Great Red Spot (GRS), its surroundings and Oval BA from 2015 to 2021. To retrieve the main atmospheric parameters, we model the spectral reflectivity of a number of dynamically and/or spectrally interesting regions with a radiative transfer tool that uses an optimal estimator scheme. The spectra of the selected regions are obtained from high-resolution Hubble Space Telescope Wide Field Camera 3 images that cover the spectral range from 200 to 900 nm. The a priori model atmosphere used to describe the various Jovian regions is taken from Anguiano-Arteaga et al. (2021, https://doi.org/10.1029/2021JE006996) for each corresponding area. We find that the biggest variations in the GRS occur in the optical thickness of the stratospheric and tropospheric haze layers starting in 2019 and in the mean size of the tropospheric haze particles in 2018. The absorption spectra of both hazes show little variations among the analyzed regions and years, with the stratospheric haze properties seeming compatible with the chromophore proposed by Carlson et al. (2016, https://doi.org/10.1016/j.icarus.2016.03.008). We report a color change of Oval BA from red to white during these years that, according to our models, can be mostly explained in terms of a decrease in the stratospheric haze optical depth.