Context. Due to the effects that they can have on the atmospheres of exoplanets, stellar winds have recently received significant attention in the literature. Alfvén-wave-driven 3D magnetohydrodynamic models, which are increasingly used to predict stellar wind properties, contain unconstrained parameters and rely on low-resolution stellar magnetograms. Aims. In this paper, we explore the effects of the input Alfvén wave energy flux and the surface magnetogram on the wind properties predicted by the Alfvén Wave Solar Model (AWSoM) model for both the solar and stellar winds. Methods. We lowered the resolution of two solar magnetograms during solar cycle maximum and minimum using spherical harmonic decomposition. The Alfvén wave energy was alt...
By means of self-consistent three-dimensional magnetohydrodynamics (MHD) numerical simulations, we a...
Cool giant and supergiant stars generally present low velocity winds with high mass-loss rates. Seve...
Stellar winds represent one of the essential phenomena shaping exoplanet atmospheres over evolutiona...
Context. Due to the effects that they can have on the atmospheres of exoplanets, stellar winds have ...
International audienceContext. Due to the effects that they can have on the atmospheres of exoplanet...
International audienceThe first two encounters of Parker Solar Probe have shown features that alread...
Funding: UK Science and Technology Facilities Funding Council (STFC).Stellar winds govern the angula...
Some aspects of stellar magnetic activity such as X-ray emission are relatively easy to observe, whi...
We have developed a new three-dimensional magnetohydrodynamic (MHD) solar wind model coupled to the...
The most abundant stars in the universe - cool stars - have stellar winds. The importance of these m...
The steady, supersonic outflow from the Sun we call the solar wind was first posited in the 1950s an...
International audienceDuring Parker Solar Probe's first orbit, the solar wind plasma was observed in...
The large-scale field of the Sun is well represented by its lowest energy (or potential) state. Rece...
Stars interact with their planets through gravitation, radiation, and magnetic fields. Although magn...
By means of self-consistent three-dimensional magnetohydrodynamics (MHD) numerical simulations, we a...
Cool giant and supergiant stars generally present low velocity winds with high mass-loss rates. Seve...
Stellar winds represent one of the essential phenomena shaping exoplanet atmospheres over evolutiona...
Context. Due to the effects that they can have on the atmospheres of exoplanets, stellar winds have ...
International audienceContext. Due to the effects that they can have on the atmospheres of exoplanet...
International audienceThe first two encounters of Parker Solar Probe have shown features that alread...
Funding: UK Science and Technology Facilities Funding Council (STFC).Stellar winds govern the angula...
Some aspects of stellar magnetic activity such as X-ray emission are relatively easy to observe, whi...
We have developed a new three-dimensional magnetohydrodynamic (MHD) solar wind model coupled to the...
The most abundant stars in the universe - cool stars - have stellar winds. The importance of these m...
The steady, supersonic outflow from the Sun we call the solar wind was first posited in the 1950s an...
International audienceDuring Parker Solar Probe's first orbit, the solar wind plasma was observed in...
The large-scale field of the Sun is well represented by its lowest energy (or potential) state. Rece...
Stars interact with their planets through gravitation, radiation, and magnetic fields. Although magn...
By means of self-consistent three-dimensional magnetohydrodynamics (MHD) numerical simulations, we a...
Cool giant and supergiant stars generally present low velocity winds with high mass-loss rates. Seve...
Stellar winds represent one of the essential phenomena shaping exoplanet atmospheres over evolutiona...