M-dwarf stars are the most numerous stars in the Universe; they span a wide range in mass and are in the focus of ongoing and planned exoplanet surveys. To investigate and understand their physical nature, detailed spectral information and accurate stellar models are needed. We use a new synthetic atmosphere model generation and compare model spectra to observations. To test the model accuracy, we compared the models to four benchmark stars with atmospheric parameters for which independent information from interferometric radius measurements is available. We used χ2-based methods to determine parameters from high-resolution spectroscopic observations. Our synthetic spectra are based on the new PHOENIX grid that uses the ACES description for...
International audienceContext. M dwarfs are an important source of information when studying and pro...
ChH highlights financial support of the European Community under the FP7 by an ERC starting grant. I...
International audienceWe present a comparison of low-resolution spectra of 60 stars covering the who...
M-dwarf stars are the most numerous stars in the Universe; they span a wide range in mass and are in...
International audienceWe present an optical spectral atlas of stars covering the whole M-dwarf seque...
M-dwarfs are emerging in the literature as promising targets for detecting low-mass, Earth-like plan...
International audienceThe goal of the present study is to construct, test, and validate a high-resol...
Abstract. Being able to accurately estimate stellar parameters based on spectral obser-vations is im...
Context. The new CARMENES instrument comprises two high-resolution and high-stability spectrographs ...
Context. The new CARMENES instrument comprises two high-resolution and high-stability spectrographs ...
Abstract About 70% of stars in the Milky Way galaxy are M-dwarfs. They span a range of low masses (...
We describe a method for accurately determining M dwarf metallicities with spectral synthesis based ...
M dwarfs are attractive target stars for exoplanets. To assess exoplanet habitability around them, t...
We have calculated a grid of more than 700 model atmospheres valid for a wide range of parameters en...
International audienceContext. M dwarfs are an important source of information when studying and pro...
ChH highlights financial support of the European Community under the FP7 by an ERC starting grant. I...
International audienceWe present a comparison of low-resolution spectra of 60 stars covering the who...
M-dwarf stars are the most numerous stars in the Universe; they span a wide range in mass and are in...
International audienceWe present an optical spectral atlas of stars covering the whole M-dwarf seque...
M-dwarfs are emerging in the literature as promising targets for detecting low-mass, Earth-like plan...
International audienceThe goal of the present study is to construct, test, and validate a high-resol...
Abstract. Being able to accurately estimate stellar parameters based on spectral obser-vations is im...
Context. The new CARMENES instrument comprises two high-resolution and high-stability spectrographs ...
Context. The new CARMENES instrument comprises two high-resolution and high-stability spectrographs ...
Abstract About 70% of stars in the Milky Way galaxy are M-dwarfs. They span a range of low masses (...
We describe a method for accurately determining M dwarf metallicities with spectral synthesis based ...
M dwarfs are attractive target stars for exoplanets. To assess exoplanet habitability around them, t...
We have calculated a grid of more than 700 model atmospheres valid for a wide range of parameters en...
International audienceContext. M dwarfs are an important source of information when studying and pro...
ChH highlights financial support of the European Community under the FP7 by an ERC starting grant. I...
International audienceWe present a comparison of low-resolution spectra of 60 stars covering the who...