UNC-CH Physics and Astronomy Colloquium
Evgenya Shkolnik, Arizona State University
“Blast from the Past: Impact of Ultraviolet Emission and Flaring on Exoplanetary Systems and their Habitability”
Roughly seventy-five billion low-mass stars (a.k.a. M dwarfs) in our galaxy host at least one small planet in the habitable zone (HZ). The stellar ultraviolet (UV) radiation from M dwarfs is strong and highly variable, and impacts planetary atmospheric loss, composition and habitability. These effects are amplified by the extreme proximity of their HZs. We now know that these planets are exposed to superflares daily in their first ~100 Myr. Knowing the UV environments of M dwarf planets of all sizes is crucial to understand their atmospheric composition and evolution, providing the needed context for measured exoplanet spectra; while for HZ terrestrial planets, characterization of the UV provides a key parameter in a planet’s potential to be habitable as well as discriminating between biological and abiotic sources for observed biosignatures. Our efforts to study the UV photometrically and spectroscopically of such planetary systems employ past, present and future space telescopes: the Galaxy Evolution Explorer (GALEX), the Hubble Space Telescope (HST), and the upcoming NASA-funded Star-Planet Activity Research CubeSat (SPARCS), due for launch at the beginning of 2022. SPARCS will be a 6U CubeSat completely devoted to continuous photometric monitoring of M stars, measuring their variability, flare rates and evolution, while also being a pathfinder for much-needed future UV missions.