Exoplanets and Stellar Physics

New Pleiades Eclipsing Binaries and a Hyades Transiting System Identified by K2

(2016)

Authors:

Trevor J David, Kyle E Conroy, Lynne A Hillenbrand, Keivan G Stassun, John Stauffer, Luisa M Rebull, Ann Marie Cody, Howard Isaacson, Andrew W Howard, Suzanne Aigrain

ROTATION AND WINDS OF EXOPLANET HD 189733 b MEASURED WITH HIGH-DISPERSION TRANSMISSION SPECTROSCOPY

The Astrophysical Journal American Astronomical Society 817:2 (2016) 106

Authors:

M Brogi, RJ de Kok, S Albrecht, IAG Snellen, JL Birkby, H Schwarz

HST hot-Jupiter transmission spectral survey: Clear skies for cool Saturn WASP-39b

(2016)

Authors:

Patrick D Fischer, Heather A Knutson, David K Sing, Gregory W Henry, Michael W Williamson, Jonathan J Fortney, Adam S Burrows, Tiffany Kataria, Nikolay Nikolov, Adam P Showman, Gilda E Ballester, Jean-Michel Désert, Suzanne Aigrain, Drake Deming, Alain Lecavelier des Etangs, Alfred Vidal-Madjar

ATMOSPHERIC CHEMISTRY FOR ASTROPHYSICISTS: A SELF-CONSISTENT FORMALISM AND ANALYTICAL SOLUTIONS FOR ARBITRARY C/O

The Astrophysical Journal American Astronomical Society 816:2 (2016) 96

Authors:

Kevin Heng, James R Lyons, Shang-Min Tsai

Telling twins apart: Exo-Earths and Venuses with transit spectroscopy

Monthly Notices of the Royal Astronomical Society Oxford University Press 458:3 (2016) 2657-2666

Authors:

JK Barstow, Suzanne Aigrain, Patrick GJ Irwin, Sarah Kendrew, Leigh N Fletcher

Abstract:

The planned launch of the James Webb Space Telescope (JWST) in 2018 will herald a new era of exoplanet spectroscopy. JWST will be the first telescope sensitive enough to potentially characterize terrestrial planets from their transmission spectra. In this work, we explore the possibility that terrestrial planets with Venus-type and Earth-type atmospheres could be distinguished from each other using spectra obtained by JWST. If we find a terrestrial planet close to the liquid water habitable zone of an M5 star within a distance of 10 parsec, it would be possible to detect atmospheric ozone if present in large enough quantities, which would enable an oxygen-rich atmosphere to be identified. However, the cloudiness of a Venus-type atmosphere would inhibit our ability to draw firm conclusions about the atmospheric composition, making any result ambiguous. Observing small, temperate planets with JWST requires significant investment of resources, with single targets requiring of the order of 100 transits to achieve sufficient signal to noise. The possibility of detecting a crucial feature such as the ozone signature would need to be carefully weighed against the likelihood of clouds obscuring gas absorption in the spectrum.