Exoplanet atmospheres

Scaling Relations for Terrestrial Exoplanet Atmospheres from Baroclinic Criticality

(2019)

Authors:

Thaddeus D Komacek, Malte F Jansen, Eric T Wolf, Dorian S Abbot

Ethane in Titan's Stratosphere from Cassini CIRS Far- and Mid-Infrared Spectra

(2019)

Authors:

Nicholas A Lombardo, Conor A Nixon, Melody Sylvestre, Donald E Jennings, Nicholas Teanby, Patrick GJ Irwin, F Michael Flasar

ESA Voyage 2050 White Paper: Detecting life outside our solar system with a large high-contrast-imaging mission

arXiv e-prints (2019) arXiv:1908.01803-arXiv:1908.01803

Authors:

Ignas Snellen, Simon Albrecht, Guillem Anglada-Escude, Isabelle Baraffe, Pierre Baudoz, Willy Benz, Jean-Luc Beuzit, Beth Biller, Jayne Birkby, Anthony Boccaletti, Roy van Boekel, Jos de Boer, Matteo Brogi, Lars Buchhave, Ludmila Carone, Mark Claire, Riccardo Claudi, Brice-Olivier Demory, Jean-Michel Desert, Silvano Desidera, Scott Gaudi, Raffaele Gratton, Michael Gillon, John Lee Grenfell, Olivier Guyon, Thomas Henning, Sasha Hinkley, Elsa Huby, Markus Janson, Christiane Helling, Kevin Heng, Markus Kasper, Christoph Keller, Matthew Kenworthy, Oliver Krause, Laura Kreidberg, Nikku Madhusudhan, Anne-Marie Lagrange, Ralf Launhardt, Tim Lenton, Manuel Lopez-Puertas, Anne-Lise Maire, Nathan Mayne, Victoria Meadows, Bertrand Mennesson, Giuseppina Micela, Yamila Miguel, Julien Milli, Michiel Min, Ernst de Mooij, David Mouillet, Mamadou N’Diaye, Valentina D’Orazi, Enric Palle, Isabella Pagano, Giampaolo Piotto, Didier Queloz, Heike Rauer, Ignasi Ribas, Garreth Ruane, Franck Selsis, Frans Snik, Alessandro Sozzetti, Daphne Stam, Christopher Stark, Arthur Vigan, Pieter de Visser

Impact of space weather on climate and habitability of terrestrial-type exoplanets

International Journal of Astrobiology Cambridge University Press (2019)

Authors:

VS Airapetian, R Barnes, O Cohen, GA Collinson, WC Danchi, CF Dong, AD Del Genio, K Garcia-Sage, K France, A Glocer, N Gopalswamy, JL Grenfell, G Gronoff, M Güdel, K Herbst, WG Henning, CH Jackman, M Jin, CP Johnstone, L Kaltenegger, CD Kay, K Kobayashi, W Kuang, G Li, BJ Lynch

Abstract:

The search for life in the Universe is a fundamental problem of astrobiology and modern science. The current progress in the detection of terrestrial-type exoplanets has opened a new avenue in the characterization of exoplanetary atmospheres and in the search for biosignatures of life with the upcoming ground-based and space missions. To specify the conditions favourable for the origin, development and sustainment of life as we know it in other worlds, we need to understand the nature of global (astrospheric), and local (atmospheric and surface) environments of exoplanets in the habitable zones (HZs) around G-K-M dwarf stars including our young Sun. Global environment is formed by propagated disturbances from the planet-hosting stars in the form of stellar flares, coronal mass ejections, energetic particles and winds collectively known as astrospheric space weather. Its characterization will help in understanding how an exoplanetary ecosystem interacts with its host star, as well as in the specification of the physical, chemical and biochemical conditions that can create favourable and/or detrimental conditions for planetary climate and habitability along with evolution of planetary internal dynamics over geological timescales. A key linkage of (astro)physical, chemical and geological processes can only be understood in the framework of interdisciplinary studies with the incorporation of progress in heliophysics, astrophysics, planetary and Earth sciences. The assessment of the impacts of host stars on the climate and habitability of terrestrial (exo)planets will significantly expand the current definition of the HZ to the biogenic zone and provide new observational strategies for searching for signatures of life. The major goal of this paper is to describe and discuss the current status and recent progress in this interdisciplinary field in light of presentations and discussions during the NASA Nexus for Exoplanetary System Science funded workshop ‘Exoplanetary Space Weather, Climate and Habitability’ and to provide a new roadmap for the future development of the emerging field of exoplanetary science and astrobiology.

Observing exoplanets in the near-infrared from a high altitude balloon platform

Journal of Astronomical Instrumentation World Scientific Publishing 8:3 (2019) 1950011

Authors:

PC Nagler, B Edwards, B Kilpatrick, NK Lewis, P Maxted, C Barth Netterfield, V Parmentier, E Pascale, S Sarkar, GS Tucker, I Waldmann

Abstract:

Although there exists a large sample of known exoplanets, little data exists that can be used to study their global atmospheric properties. This deficiency can be addressed by performing phase-resolved spectroscopy — continuous spectroscopic observations of a planet’s entire orbit about its host star — of transiting exoplanets. Planets with characteristics suitable for atmospheric characterization have orbits of several days, thus phase curve observations are highly resource intensive, especially for shared use facilities. In this work, we show that an infrared spectrograph operating from a high altitude balloon platform can perform phase-resolved spectroscopy of hot Jupiter-type exoplanets with performance comparable to a space-based telescope. Using the EXoplanet Climate Infrared TElescope (EXCITE) experiment as an example, we quantify the impact of the most important systematic effects that we expect to encounter from a balloon platform. We show an instrument like EXCITE will have the stability and sensitivity to significantly advance our understanding of exoplanet atmospheres. Such an instrument will both complement and serve as a critical bridge between current and future space-based near-infrared spectroscopic instruments.