Revealing the atmospheres of highly irradiated exoplanets: from ultra-hot Jupiters to rocky worlds

Mansfield, Megan

doi:10.1007/s10509-023-04183-5

Astrophys Space Sci

2023

DOI: 10.1007/s10509-023-04183-5

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Revealing the atmospheres of highly irradiated exoplanets: from ultra-hot Jupiters to rocky worlds

Megan Mansfield

Abstract: Spectroscopy of transiting exoplanets has revealed a wealth of information about their atmospheric compositions and thermal structures. In particular, studies of highly irradiated exoplanets at temperatures much higher than those found in our solar system have provided detailed information on planetary chemistry and physics because of the high level of precision which can be obtained from such observations. Here we use a variety of techniques to study the atmospheres of highly irradiated transiting exoplanets … Show more

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2024

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Cited by 1 publication

References 95 publications

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Effects of the internal temperature on vertical mixing and on cloud structures in ultra-hot Jupiters

Noti,

Lee

2024

A&A

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The vertical mixing in hot-Jupiter atmospheres plays a critical role in the formation and spacial distribution of cloud particles in their atmospheres. This affects the observed spectra of a planet through cloud opacity, which can be influenced by the degree of cold trapping of refractory species in the deep atmosphere. We aim to isolate the effects of the internal temperature on the mixing efficiency in the atmospheres of ultra-hot Jupiters (UHJs) and the spacial distribution of cloud particles across the planet. We combined a simplified tracer-based cloud model, a picket fence radiative-transfer scheme, and a mixing length theory to the Exo-FMS general circulation model. We ran the model for five different internal temperatures at typical UHJ atmosphere system parameters. Our results show the convective eddy diffusion coefficient remains low throughout the vast majority of the atmosphere, with mixing dominated by advective flows. However, some regions can show convective mixing in the upper atmosphere for colder interior temperatures. The vertical extent of the clouds is reduced as the internal temperature is increased. Additionally, a global cloud layer gets formed below the radiative--convective boundary (RCB) in the cooler cases. Convection is generally strongly inhibited in UHJ atmospheres above the RCB due to their strong irradiation. Convective mixing plays a minor role compared to advective mixing in keeping cloud particles aloft in UHJs with warm interiors. Higher vertical turbulent heat fluxes and the advection of potential temperature inhibit convection in warmer interiors. Our results suggest that isolated upper atmosphere regions above cold interiors may exhibit strong convective mixing in isolated regions around Rossby gyres, allowing aerosols to be better retained in these areas.

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Effects of the internal temperature on vertical mixing and on cloud structures in ultra-hot Jupiters

Noti,

Lee

2024

A&A

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Revealing the atmospheres of highly irradiated exoplanets: from ultra-hot Jupiters to rocky worlds

Cited by 1 publication

References 95 publications

Effects of the internal temperature on vertical mixing and on cloud structures in ultra-hot Jupiters

Effects of the internal temperature on vertical mixing and on cloud structures in ultra-hot Jupiters

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