Add to ORKGThis thesis focus on the interaction between M dwarf stellar winds and Galactic cosmic rays and the possible effects on the habitability of exoplanets. We use numerical simulations to describe the stellar winds of M dwarfs using observable constraints, such as the mass-loss rate, X-ray luminosity, and magnetic field strength/flux. Additionally, we use numerical simulations to describe the propagation of Galactic cosmic rays within M dwarf planetary systems. With these simulations, we can calculate the flux of Galactic cosmic rays reaching exoplanet magnetospheres/atmospheres. Measuring cosmic ray fluxes in exoplanet atmospheres is yet not possible, but cosmic rays are an important ingredient in the context of planetary habitability. For thi...
M dwarfs are the most numerous type of stars in the Universe. Their low masses and their large plane...
We consider the magnetic interaction of exoplanets orbiting M dwarfs, calculating the expected Poynt...
Stellar wind and photon radiation interactions with a planet can cause atmospheric depletion, which ...
The propagation of Galactic cosmic rays is well studied in the context of the Sun but it is poorly k...
Energetic particles, such as stellar energetic particles and Galactic cosmic rays, are an important ...
Recent work has demonstrated that high levels of X-ray and UV activity on young M dwarfs may drive r...
Because of their different origins, cosmic rays can be subdivided into galactic cosmic rays and sola...
The habitable zone is the range of orbital distances from a host star in which an exoplanet would ha...
We perform three-dimensional numerical simulations of stellar winds of early-M-dwarf stars. Our simu...
International audiencePrevious studies have shown that extrasolar Earth-like planets in close-in hab...
Context. The principle definition of habitability for exoplanets is whether they can sustain liquid ...
16 pages, 9 figures, to appear in MNRASInternational audienceWe perform three-dimensional numerical ...
Recent work has demonstrated that high levels of X-ray and UV activity on young M dwarfs may drive r...
Abstract. The great majority of exoplanets discovered so far are orbiting cool, low-mass stars whose...
Context. Theoretical arguments indicate that close-in terrestial exoplanets may have weak magnetic f...
M dwarfs are the most numerous type of stars in the Universe. Their low masses and their large plane...
We consider the magnetic interaction of exoplanets orbiting M dwarfs, calculating the expected Poynt...
Stellar wind and photon radiation interactions with a planet can cause atmospheric depletion, which ...
The propagation of Galactic cosmic rays is well studied in the context of the Sun but it is poorly k...
Energetic particles, such as stellar energetic particles and Galactic cosmic rays, are an important ...
Recent work has demonstrated that high levels of X-ray and UV activity on young M dwarfs may drive r...
Because of their different origins, cosmic rays can be subdivided into galactic cosmic rays and sola...
The habitable zone is the range of orbital distances from a host star in which an exoplanet would ha...
We perform three-dimensional numerical simulations of stellar winds of early-M-dwarf stars. Our simu...
International audiencePrevious studies have shown that extrasolar Earth-like planets in close-in hab...
Context. The principle definition of habitability for exoplanets is whether they can sustain liquid ...
16 pages, 9 figures, to appear in MNRASInternational audienceWe perform three-dimensional numerical ...
Recent work has demonstrated that high levels of X-ray and UV activity on young M dwarfs may drive r...
Abstract. The great majority of exoplanets discovered so far are orbiting cool, low-mass stars whose...
Context. Theoretical arguments indicate that close-in terrestial exoplanets may have weak magnetic f...
M dwarfs are the most numerous type of stars in the Universe. Their low masses and their large plane...
We consider the magnetic interaction of exoplanets orbiting M dwarfs, calculating the expected Poynt...
Stellar wind and photon radiation interactions with a planet can cause atmospheric depletion, which ...