Exoplanets and Stellar Physics

Carbon monoxide emission lines reveal an inverted atmosphere in the ultra hot Jupiter WASP-33 b consistent with an eastward hot spot

(2022)

Authors:

Lennart van Sluijs, Jayne L Birkby, Joshua Lothringer, Elspeth KH Lee, Ian JM Crossfield, Vivien Parmentier, Matteo Brogi, Craig Kulesa, Don McCarthy, David Charbonneau

One year of AU Mic with HARPS - II. Stellar activity and star-planet interaction

Monthly Notices of the Royal Astronomical Society Oxford University Press 512:4 (2022) 5067-5084

Authors:

Baptiste Klein, Norbert Zicher, Robert D Kavanagh, Louise D Nielsen, Suzanne Aigrain, Aline A Vidotto, Oscar Barragan Villanueva, Antoine Strugarek, Belinda Nicholson, Jean-Francois Donati, Jerome Bouvier

Abstract:

We present a spectroscopic analysis of a 1-yr intensive monitoring campaign of the 22-Myr old planet-hosting M dwarf AU Mic using the HARPS spectrograph. In a companion paper, we reported detections of the planet radial velocity (RV) signatures of the two close-in transiting planets of the system, with respective semi-amplitudes of 5.8 ± 2.5 and 8.5 ± 2.5 m s-1 for AU Mic b and AU Mic c. Here, we perform an independent measurement of the RV semi-amplitude of AU Mic c using Doppler imaging to simultaneously model the activity-induced distortions and the planet-induced shifts in the line profiles. The resulting semi-amplitude of 13.3 ± 4.1 m s-1 for AU Mic c reinforces the idea that the planet features a surprisingly large inner density, in tension with current standard models of core accretion. Our brightness maps feature significantly higher spot coverage and lower level of differential rotation than the brightness maps obtained in late 2019 with the SPIRou spectropolarimeter, suggesting that the stellar magnetic activity has evolved dramatically over a ∼1-yr time span. Additionally, we report a 3σ detection of a modulation at 8.33 ± 0.04 d of the He i D3 (5875.62 Å) emission flux, close to the 8.46-d orbital period of AU Mic b. The power of this emission (a few 1017 W) is consistent with 3D magnetohydrodynamical simulations of the interaction between stellar wind and the close-in planet if the latter hosts a magnetic field of ∼10 G. Spectropolarimetric observations of the star are needed to firmly elucidate the origin of the observed chromospheric variability.

Geophysical Evolution During Rocky Planet Formation

ArXiv 2203.10023 (2022)

Authors:

Tim Lichtenberg, Laura K Schaefer, Miki Nakajima, Rebecca A Fischer

Applications of a Gaussian Process Framework for Modelling of High-Resolution Exoplanet Spectra

(2022)

Authors:

Annabella Meech, Suzanne Aigrain, Matteo Brogi, Jayne Birkby

Applications of a Gaussian Process Framework for Modelling of High-Resolution Exoplanet Spectra

(2022)

Authors:

Annabella Meech, Suzanne Aigrain, Matteo Brogi, Jayne Birkby