Planetary Climate Dynamics

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

Nature Springer Nature 614:7949 (2023) 670-675

Authors:

Adina D Feinstein, Michael Radica, Luis Welbanks, Catriona Anne Murray, Kazumasa Ohno, Louis-Philippe Coulombe, Néstor Espinoza, Jacob L Bean, Johanna K Teske, Björn Benneke, Michael R Line, Zafar Rustamkulov, Arianna Saba, Angelos Tsiaras, Joanna K Barstow, Jonathan J Fortney, Peter Gao, Heather A Knutson, Ryan J MacDonald, Thomas Mikal-Evans, Benjamin V Rackham, Jake Taylor, Vivien Parmentier, Natalie M Batalha, Zachory K Berta-Thompson, Aarynn L Carter, Quentin Changeat, Leonardo A dos Santos, Neale P Gibson, Jayesh M Goyal, Laura Kreidberg, Mercedes López-Morales, Joshua D Lothringer, Yamila Miguel, Karan Molaverdikhani, Sarah E Moran, Giuseppe Morello, Sagnick Mukherjee, David K Sing, Kevin B Stevenson, Hannah R Wakeford, Eva-Maria Ahrer, Munazza K Alam, Lili Alderson, Natalie H Allen, Natasha E Batalha, Taylor J Bell, Jasmina Blecic, Jonathan Brande, Claudio Caceres, SL Casewell, Katy L Chubb, Ian JM Crossfield, Nicolas Crouzet, Patricio E Cubillos, Leen Decin, Jean-Michel Désert, Joseph Harrington, Kevin Heng, Thomas Henning, Nicolas Iro, Eliza M-R Kempton, Sarah Kendrew, James Kirk, Jessica Krick, Pierre-Olivier Lagage, Monika Lendl, Luigi Mancini, Megan Mansfield, EM May, NJ Mayne, Nikolay K Nikolov, Enric Palle, Dominique JM Petit dit de la Roche, Caroline Piaulet, Diana Powell, Seth Redfield, Laura K Rogers, Michael T Roman, Pierre-Alexis Roy, Matthew C Nixon, Everett Schlawin, Xianyu Tan, P Tremblin, Jake D Turner, Olivia Venot, William C Waalkes, Peter J Wheatley, Xi Zhang

Early Release Science of the exoplanet WASP-39b with JWST NIRSpec G395H

Nature Springer Nature 614:7949 (2023) 664-669

Authors:

Lili Alderson, Hannah R Wakeford, Munazza K Alam, Natasha E Batalha, Joshua D Lothringer, Jea Adams Redai, Saugata Barat, Jonathan Brande, Mario Damiano, Tansu Daylan, Néstor Espinoza, Laura Flagg, Jayesh M Goyal, David Grant, Renyu Hu, Julie Inglis, Elspeth KH Lee, Thomas Mikal-Evans, Lakeisha Ramos-Rosado, Pierre-Alexis Roy, Nicole L Wallack, Natalie M Batalha, Jacob L Bean, Björn Benneke, Zachory K Berta-Thompson, Aarynn L Carter, Quentin Changeat, Knicole D Colón, Ian JM Crossfield, Jean-Michel Désert, Daniel Foreman-Mackey, Neale P Gibson, Laura Kreidberg, Michael R Line, Mercedes López-Morales, Karan Molaverdikhani, Sarah E Moran, Giuseppe Morello, Julianne I Moses, Sagnick Mukherjee, Everett Schlawin, David K Sing, Kevin B Stevenson, Jake Taylor, Keshav Aggarwal, Eva-Maria Ahrer, Natalie H Allen, Joanna K Barstow, Taylor J Bell, Jasmina Blecic, Sarah L Casewell, Katy L Chubb, Nicolas Crouzet, Patricio E Cubillos, Leen Decin, Adina D Feinstein, Joanthan J Fortney, Joseph Harrington, Kevin Heng, Nicolas Iro, Eliza M-R Kempton, James Kirk, Heather A Knutson, Jessica Krick, Jérémy Leconte, Monika Lendl, Ryan J MacDonald, Luigi Mancini, Megan Mansfield, Erin M May, Nathan J Mayne, Yamila Miguel, Nikolay K Nikolov, Kazumasa Ohno, Enric Palle, Vivien Parmentier, Dominique JM Petit dit de la Roche, Caroline Piaulet, Diana Powell, Benjamin V Rackham, Seth Redfield, Laura K Rogers, Zafar Rustamkulov, Xianyu Tan, P Tremblin, Shang-Min Tsai, Jake D Turner, Miguel de Val-Borro, Olivia Venot, Luis Welbanks, Peter J Wheatley, Xi Zhang

The Runaway Greenhouse on Sub-Neptune Waterworlds

The Astrophysical Journal American Astronomical Society 944:1 (2023) 20-20

Abstract:

<jats:title>Abstract</jats:title> <jats:p>The implications of the water vapor runaway greenhouse phenomenon for water-rich sub-Neptunes are developed. In particular, the nature of the postrunaway equilibration process for planets that have an extremely high water inventory is addressed. Crossing the threshold from subrunaway to superrunaway conditions leads to a transition from equilibrated states with cold, deep liquid oceans and deep interior ice-X phases to states with hot supercritical fluid interiors. There is a corresponding marked inflation of radius for a given mass, similar to the runaway greenhouse radius inflation effect noted earlier for terrestrial planets, but in the present case the inflation involves the entire interior of the planet. The calculation employs the AQUA equation-of-state database to simplify the internal structure calculation. Some speculations concerning the effect of H<jats:sub>2</jats:sub> admixture, silicate cores, and hot- versus cold-start evolution trajectories are offered. Observational implications are discussed though the search for the mass–radius signature of the phenomena considered is limited by degeneracies and by lack of data.</jats:p>

Patchy Forsterite Clouds in the Atmospheres of Two Highly Variable Exoplanet Analogs

The Astrophysical Journal American Astronomical Society 944:2 (2023) 138

Authors:

Johanna M Vos, Ben Burningham, Jacqueline K Faherty, Sherelyn Alejandro, Eileen Gonzales, Emily Calamari, Daniella Bardalez Gagliuffi, Channon Visscher, Xianyu Tan, Caroline V Morley, Mark Marley, Marina E Gemma, Niall Whiteford, Josefine Gaarn, Grace Park

The climate and compositional variation of the highly eccentric planet HD 80606 b – the rise and fall of carbon monoxide and elemental sulfur

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) (2023)

Authors:

Shang-Min Tsai, Maria Steinrueck, Vivien Parmentier, Nikole Lewis, Raymond Pierrehumbert

Abstract:

<jats:title>Abstract</jats:title> <jats:p>The gas giant HD 80606 b has a highly eccentric orbit (e ∼ 0.93). The variation due to the rapid shift of stellar irradiation provides a unique opportunity to probe the physical and chemical timescales and to study the interplay between climate dynamics and atmospheric chemistry. In this work, we present integrated models to study the atmospheric responses and the underlying physical and chemical mechanisms of HD 80606 b. We first run three-dimensional general circulation models (GCMs) to establish the atmospheric thermal and dynamical structures for different atmospheric metallicities and internal heat. Based on the GCM output, we then adopted a 1D time-dependent photochemical model to investigate the compositional variation along the eccentric orbit. The transition of the circulation patterns of HD 80606 b matched the dynamics regimes in previous works. Our photochemical models show that efficient vertical mixing leads to deep quench levels of the major carbon and nitrogen species and the quenching behavior does not change throughout the eccentric orbit. Instead, photolysis is the main driver of the time-dependent chemistry. While CH4 dominates over CO through most of the orbits, a transient state of [CO]/[CH4] &amp;gt; 1 after periastron is confirmed for all metallicity and internal heat cases. The upcoming JWST Cycle 1 GO program will be able to track this real-time CH4–CO conversion and infer the chemical timescale. Furthermore, sulfur species initiated by sudden heating and photochemical forcing exhibit both short-term and long-term cycles, opening an interesting avenue for detecting sulfur on exoplanets.</jats:p>