A weak spectral signature of water vapour in the atmosphere of HD 179949 b at high spectral resolution in the L band

Monthly Notices of the Royal Astronomical Society Oxford University Press 494:1 (2020) 108-119

Authors:

Rebecca K Webb, Matteo Brogi, Siddharth Gandhi, Michael R Line, Jayne L Birkby, Katy L Chubb, Ignas AG Snellen, Sergey N Yurchenko

Abstract:

High-resolution spectroscopy (⁠R⩾20000⁠) is currently the only known method to constrain the orbital solution and atmospheric properties of non-transiting hot Jupiters. It does so by resolving the spectral features of the planet into a forest of spectral lines and directly observing its Doppler shift while orbiting the host star. In this study, we analyse VLT/CRIRES (⁠R=100000⁠) L-band observations of the non-transiting giant planet HD 179949 b centred around 3.5 μm⁠. We observe a weak (3.0σ, or S/N = 4.8) spectral signature of H2O in absorption contained within the radial velocity of the planet at superior-conjunction, with a mild dependence on the choice of line list used for the modelling. Combining this data with previous observations in the K band, we measure a detection significance of 8.4 σ for an atmosphere that is most consistent with a shallow lapse-rate, solar C/O ratio, and with CO and H2O being the only major sources of opacity in this wavelength range. As the two sets of data were taken 3 yr apart, this points to the absence of strong radial-velocity anomalies due, e.g. to variability in atmospheric circulation. We measure a projected orbital velocity for the planet of KP = (145.2 ± 2.0) km s−1 (1σ) and improve the error bars on this parameter by ∼70 per cent. However, we only marginally tighten constraints on orbital inclination (⁠66.2+3.7−3.1 deg) and planet mass (⁠0.963+0.036−0.031 Jupiter masses), due to the dominant uncertainties of stellar mass and semimajor axis. Follow ups of radial-velocity planets are thus crucial to fully enable their accurate characterization via high-resolution spectroscopy.

A weak spectral signature of water vapour in the atmosphere of HD 179949 b at high spectral resolution in the L-band

(2020)

Authors:

Rebecca K Webb, Matteo Brogi, Siddharth Gandhi, Michael R Line, Jayne L Birkby, Katy L Chubb, Ignas AG Snellen, Sergey N Yurchenko

Re-inflation of warm and hot Jupiters

(2020)

Authors:

Thaddeus D Komacek, Daniel P Thorngren, Eric D Lopez, Sivan Ginzburg

Near-ultraviolet Transmission Spectroscopy of HD 209458b: Evidence of Ionized Iron Beyond the Planetary Roche Lobe

The Astronomical Journal American Astronomical Society 159:3 (2020) 111

Authors:

Patricio E Cubillos, Luca Fossati, Tommi Koskinen, Mitchell E Young, Michael Salz, Kevin France, AG Sreejith, Carole A Haswell

Understanding the atmospheric properties and chemical composition of the ultra-hot Jupiter HAT-P-7b

Astronomy & Astrophysics EDP Sciences 635 (2020) a31

Authors:

K Molaverdikhani, Ch Helling, BWP Lew, RJ MacDonald, D Samra, N Iro, P Woitke, V Parmentier