Impact of M-dwarf stellar wind and photoevaporation on the atmospheric evolution of small planets

Tipo
Artigo
Data de publicação
2023
Periódico
Monthly Notices of the Royal Astronomical Society
Citações (Scopus)
5
Autores
Modi A.
Estrela R.
Valio A.
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Resumo
© 2023 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.The evolution of a planet's atmosphere depends strongly on its host star's properties. When their host stars are younger, planets can experience stronger winds and extreme ultraviolet radiation (EUV) emissions. This is particularly true for planets orbiting M dwarfs due to their close proximity to the host star. To determine if these planets retain an atmosphere, we consider the impacts from stellar wind and EUV fluxes in driving atmospheric escape throughout the planet's lifetime. For this, we determined the atmospheric mass-loss due to stellar wind and photoevaporation on four planets in close orbit and 34 in their star's habitable zone (HZ). The M-dwarf host stars' wind velocity, density, and EUV flux were calculated through rotation period and X-ray flux scaling over time. The mass-loss rate due to stellar wind and photoevaporation was then computed as a function of time and accumulated throughout the planet's age to determine the total atmospheric mass-loss of the planet's initial H/He envelope. We find that for HZ planets at orbits <0.1 au, stellar wind can only remove of the H/He envelope, while photoevaporation is essential for completely removing the H/He envelope of most targets. Moreover, due to either mechanism, most planets orbiting at >0.1 au do not have their primordial envelope stripped. Overall, out of the 38 planets studied, 13 were predicted to have lost the primordial envelope due to photoevaporation, while two planets lost the envelope due to both stellar wind and photoevaporation.
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Palavras-chave
Assuntos Scopus
Atmospheric evolution , Atmospheric mass loss , Extreme ultraviolet radiations , Host-stars , Planetary system , Planets and satellites: atmospheres , Planets' atmospheres , Radiation fluxes , Stars: winds outflows , Stellar wind
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