Dr Jake Taylor (he/him)

Inferring shallow surfaces on sub-neptune exoplanets with JWST

The Astrophysical Journal Letters IOP Publishing 922:2 (2021) L27

Authors:

Shang-Min Tsai, Hamish Innes, Tim Lichtenberg, Jake Taylor, Matej Malik, Katy Chubb, Raymond Pierrehumbert

Abstract:

Planets smaller than Neptune and larger than Earth make up the majority of the discovered exoplanets. Those with H2-rich atmospheres are prime targets for atmospheric characterization. The transition between the two main classes, super-Earths and sub-Neptunes, is not clearly understood as the rocky surface is likely not accessible to observations. Tracking several trace gases (specifically the loss of ammonia (NH3) and hydrogen cyanide (HCN)) has been proposed as a proxy for the presence of a shallow surface. In this work, we revisit the proposed mechanism of nitrogen conversion in detail and find its timescale on the order of a million years. NH3 exhibits dual paths converting to N2 or HCN, depending on the UV radiation of the star and the stage of the system. In addition, methanol (CH3OH) is identified as a robust and complementary proxy for a shallow surface. We follow the fiducial example of K2-18b with a 2D photochemical model on an equatorial plane. We find a fairly uniform composition distribution below 0.1 mbar controlled by the dayside, as a result of slow chemical evolution. NH3 and CH3OH are concluded to be the most unambiguous proxies to infer surfaces on sub-Neptunes in the era of the James Webb Space Telescope.

HST PanCET Program: A Complete Near-UV to Infrared Transmission Spectrum for the Hot Jupiter WASP-79b

The Astronomical Journal IOP Publishing 162:4 (2021) 138-138

Authors:

Alexander D Rathcke, Ryan J MacDonald, Joanna K Barstow, Jayesh M Goyal, Mercedes Lopez-Morales, João M Mendonça, Jorge Sanz-Forcada, Gregory W Henry, David K Sing, Munazza K Alam, Nikole K Lewis, Katy L Chubb, Jake Taylor, Nikolay Nikolov, Lars A Buchhave

Abstract:

The ExoMol database (www.exomol.com) provides molecular data for spectroscopic studies of hot atmospheres. These data are widely used to model atmospheres of exoplanets, cool stars and other astronomical objects, as well as a variety of terrestrial applications. The 2024 data release reports the current status of the database which contains recommended line lists for 91 molecules and 224 isotopologues giving a total of almost 10$^{12}$ individual transitions. New features of the database include extensive "MARVELization" of line lists to allow them to be used for high resolutions studies, extension of several line lists to ultraviolet wavelengths, provision of photodissociation cross sections and extended provision of broadening parameters. Some of the in-house data specifications have been rewritten in JSON and moved to conformity with other international standards. Data products, including specific heats, a database of lifetimes for plasma studies, and the ExoMolHR web app which allows exclusively high resolution data to be extracted, are discussed

How does thermal scattering shape the infrared spectra of cloudy exoplanets? A theoretical framework and consequences for atmospheric retrievals in the JWST era

Monthly Notices of the Royal Astronomical Society Oxford University Press 506:1 (2021) 1309-1332

Authors:

Jake Taylor, Vivien Parmentier, Michael R Line, Graham KH Lee, Patrick GJ Irwin, Suzanne Aigrain

Abstract:

Observational studies of exoplanets are suggestive of a ubiquitous presence of clouds. The current modelling techniques used in emission to account for the clouds tend to require prior knowledge of the cloud condensing species and often do not consider the scattering effects of the cloud. We explore the effects that thermal scattering has on the emission spectra by modelling a suite of hot Jupiter atmospheres with varying cloud single-scattering albedos (SSAs) and temperature profiles. We examine cases ranging from simple isothermal conditions to more complex structures and physically driven cloud modelling. We show that scattering from nightside clouds would lead to brightness temperatures that are cooler than the real atmospheric temperature if scattering is unaccounted for. We show that scattering can produce spectral signatures in the emission spectrum even for isothermal atmospheres. We identify the retrieval degeneracies and biases that arise in the context of simulated JWST spectra when the scattering from the clouds dominates the spectral shape. Finally, we propose a novel method of fitting the SSA spectrum of the cloud in emission retrievals, using a technique that does not require any prior knowledge of the cloud chemical or physical properties.

Original Research by Young Twinkle Students (ORBYTS): ephemeris refinement of transiting exoplanets

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 504:4 (2021) 5671-5684

Authors:

Billy Edwards, Quentin Changeat, Kai Hou Yip, Angelos Tsiaras, Jake Taylor, Bilal Akhtar, Josef AlDaghir, Pranup Bhattarai, Tushar Bhudia, Aashish Chapagai, Michael Huang, Danyaal Kabir, Vieran Khag, Summyyah Khaliq, Kush Khatri, Jaidev Kneth, Manisha Kothari, Ibrahim Najmudin, Lobanaa Panchalingam, Manthan Patel, Luxshan Premachandran, Adam Qayyum, Prasen Rana, Zain Shaikh, Sheryar Syed, Harnam Theti, Mahmoud Zaidani, Manasvee Saraf, Damien de Mijolla, Hamish Caines, Anatasia Kokori, Marco Rocchetto, Matthias Mallonn, Matthieu Bachschmidt, Josep M Bosch, Marc Bretton, Philippe Chatelain, Marc Deldem, Romina Di Sisto, Phil Evans, Eduardo Fernández-Lajús, Pere Guerra, Ferran Grau Horta, Wonseok Kang, Taewoo Kim, Arnaud Leroy, František Lomoz, Juan Lozano de Haro, Veli-Pekka Hentunen, Yves Jongen, David Molina, Romain Montaigut, Ramon Naves, Manfred Raetz, Thomas Sauer, Americo Watkins, Anaël Wünsche, Martin Zibar, William Dunn, Marcell Tessenyi, Giorgio Savini, Giovanna Tinetti, Jonathan Tennyson

Water Ice Cloud Variability and Multi-epoch Transmission Spectra of TRAPPIST-1e

The Astrophysical Journal Letters American Astronomical Society 911:2 (2021) l30

Authors:

EM May, J Taylor, TD Komacek, MR Line, V Parmentier