Exoplanet atmospheres

Water and an escaping helium tail detected in the hazy and methane-depleted atmosphere of HAT-P-18b from JWST NIRISS/SOSS

(2022)

Authors:

Guangwei Fu, Néstor Espinoza, David K Sing, Joshua D Lothringer, Leonardo A Dos Santos, Zafar Rustamkulov, Drake Deming, Eliza M-R Kempton, Thaddeus D Komacek, Heather A Knutson, Loïc Albert, Klaus Pontoppidan, Kevin Volk, Joseph Filippazzo

A strong H- opacity signal in the near-infrared emission spectrum of the ultra-hot Jupiter KELT-9b

(2022)

Authors:

Bob Jacobs, Jean-Michel Désert, Lorenzo Pino, Michael R Line, Jacob L Bean, Niloofar Khorshid, Everett Schlawin, Jacob Arcangeli, Saugata Barat, H Jens Hoeijmakers, Thaddeus D Komacek, Megan Mansfield, Vivien Parmentier, Daniel Thorngren

Early Release Science of the exoplanet WASP-39b with JWST NIRCam

(2022)

Authors:

Eva-Maria Ahrer, Kevin B Stevenson, Megan Mansfield, Sarah E Moran, Jonathan Brande, Giuseppe Morello, Catriona A Murray, Nikolay K Nikolov, Dominique JM Petit dit de la Roche, Everett Schlawin, Peter J Wheatley, Sebastian Zieba, Natasha E Batalha, Mario Damiano, Jayesh M Goyal, Monika Lendl, Joshua D Lothringer, Sagnick Mukherjee, Kazumasa Ohno, Natalie M Batalha, Matthew P Battley, Jacob L Bean, Thomas G Beatty, Björn Benneke, Zachory K Berta-Thompson, Aarynn L Carter, Patricio E Cubillos, Tansu Daylan, Néstor Espinoza, Peter Gao, Neale P Gibson, Samuel Gill, Joseph Harrington, Renyu Hu, Laura Kreidberg, Nikole K Lewis, Michael R Line, Mercedes López-Morales, Vivien Parmentier, Diana K Powell, David K Sing, Shang-Min Tsai, Hannah R Wakeford, Luis Welbanks, Munazza K Alam, Lili Alderson, Natalie H Allen, David R Anderson, Joanna K Barstow, Daniel Bayliss, Taylor J Bell, Jasmina Blecic, Edward M Bryant, Matthew R Burleigh, Ludmila Carone, SL Casewell, Quentin Changeat, Katy L Chubb, Ian JM Crossfield, Nicolas Crouzet, Leen Decin, Jean-Michel Désert, Adina D Feinstein, Laura Flagg, Jonathan J Fortney, John E Gizis, Kevin Heng, Nicolas Iro, Eliza M-R Kempton, Sarah Kendrew, James Kirk, Heather A Knutson, Thaddeus D Komacek, Pierre-Olivier Lagage, Jérémy Leconte, Jacob Lustig-Yaeger, Ryan J MacDonald, Luigi Mancini, EM May, NJ Mayne, Yamila Miguel, Thomas Mikal-Evans, Karan Molaverdikhani, Enric Palle, Caroline Piaulet, Benjamin V Rackham, Seth Redfield, Laura K Rogers, Pierre-Alexis Roy, Zafar Rustamkulov, Evgenya L Shkolnik, Kristin S Sotzen, Jake Taylor, P Tremblin, Gregory S Tucker, Jake D Turner, Miguel de Val-Borro, Olivia Venot, Xi Zhang

CAMEMBERT: A Mini-Neptunes General Circulation Model Intercomparison, Protocol Version 1.0.A CUISINES Model Intercomparison Project

The Planetary Science Journal American Astronomical Society 3:11 (2022) 261

Authors:

Duncan A Christie, Elspeth KH Lee, Hamish Innes, Pascal A Noti, Benjamin Charnay, Thomas J Fauchez, Nathan J Mayne, Russell Deitrick, Feng Ding, Jennifer J Greco, Mark Hammond, Isaac Malsky, Avi Mandell, Emily Rauscher, Michael T Roman, Denis E Sergeev, Linda Sohl, Maria E Steinrueck, Martin Turbet, Eric T Wolf, Maria Zamyatina, Ludmila Carone

Seasonal changes in the vertical structure of ozone in the Martian lower atmosphere and its relationship to water vapor

Journal of Geophysical Research: Planets Wiley 127:10 (2022) e2022JE007213

Authors:

KS Olsen, AA Fedorova, A Trokhimovskiy, F Montmessin, F Lefèvre, O Korablev, L Baggio, F Forget, E Millour, A Bierjon, J Alday, CF Wilson, PGJ Irwin, DA Belyaev, A Patrakeev, A Shakun

Abstract:

The mid-infrared channel of the Atmospheric Chemistry Suite (ACS MIR) onboard the ExoMars Trace Gas Orbiter is capable of observing the infrared absorption of ozone (O3) in the atmosphere of Mars. During solar occulations, the 003←000 band (3,000-3,060 cm−1) is observed with spectral sampling of ∼0.045 cm−1. Around the equinoxes in both hemispheres and over the southern winters, we regularly observe around 200–500 ppbv of O3 below 30 km. The warm southern summers, near perihelion, produce enough atmospheric moisture that O3 is not detectable at all, and observations are rare even at high northern latitudes. During the northern summers, water vapor is restricted to below 10 km, and an O3 layer (100–300 ppbv) is visible between 20 and 30 km. At this same time, the aphelion cloud belt forms, condensing water vapor and allowing O3 to build up between 30 and 40 km. A comparison to vertical profiles of water vapor and temperature in each season reveals that water vapor abundance is controlled by atmospheric temperature, and H2O and O3 are anti-correlated as expected. When the atmosphere cools, over time or over altitude, water vapor condenses (observed as a reduction in its mixing ratio) and the production of odd hydrogen species is reduced, which allows O3 to build up. Conversely, warmer temperatures lead to water vapor enhancements and ozone loss. The LMD Mars Global Climate Model is able to reproduce vertical structure and seasonal changes of temperature, H2O, and O3 that we observe. However, the observed O3 abundance is larger by factors between 2 and 6, indicating important differences in the rate of odd-hydrogen photochemistry.