International audienceTo better understand the observed distributions of the rotation rate and magnetic activity of Sun-like and low-mass stars, we derive a physically motivated scaling for the dependence of the stellar wind torque on the Rossby number. The torque also contains an empirically derived scaling with stellar mass (and radius), which provides new insight into the mass-dependence of stellar magnetic and wind properties. We demonstrate that this new formulation explains why the lowest mass stars are observed to maintain rapid rotation for much longer than solar-mass stars, and simultaneously why older populations exhibit a sequence of slowly rotating stars, in which the low-mass stars rotate more slowly than solar-mass stars. The ...
12 pages, 7 figures, accepted to MNRASInternational audienceMagnetic activity is known to be correla...
Context. Understanding the origin and evolution of stellar angular momentum is one of the ...
International audienceObservations of stellar rotation show that low-mass stars lose angular momentu...
International audienceTo better understand the observed distributions of the rotation rate and magne...
The erratum to this article is in ORE at http://hdl.handle.net/10871/36248To better understand the o...
Context. Understanding the physical processes that dictate the angular momentum evolution of solar-t...
International audienceOn the main sequence, low-mass and solar-like stars are observed to spin down ...
Solar-like stars (M ≲ 1.3 M⊙) lose angular momentum through their magnetized winds. The resulting ev...
After their formation, stars slow down their rotation rates by the removal of angular momentum from ...
Aims. We study the acceleration of the stellar winds of rapidly rotating low mass stars and the tran...
Through the angular momentum (AM) transport of the magnetized stellar wind, low-mass main sequence s...
Despite the prevalence of fully-convective stars, very few members of the field population have meas...
Aims. We study the evolution of stellar rotation and wind properties for low-mass main-sequence star...
12 pages, 7 figures, accepted to MNRASInternational audienceMagnetic activity is known to be correla...
Context. Understanding the origin and evolution of stellar angular momentum is one of the ...
International audienceObservations of stellar rotation show that low-mass stars lose angular momentu...
International audienceTo better understand the observed distributions of the rotation rate and magne...
The erratum to this article is in ORE at http://hdl.handle.net/10871/36248To better understand the o...
Context. Understanding the physical processes that dictate the angular momentum evolution of solar-t...
International audienceOn the main sequence, low-mass and solar-like stars are observed to spin down ...
Solar-like stars (M ≲ 1.3 M⊙) lose angular momentum through their magnetized winds. The resulting ev...
After their formation, stars slow down their rotation rates by the removal of angular momentum from ...
Aims. We study the acceleration of the stellar winds of rapidly rotating low mass stars and the tran...
Through the angular momentum (AM) transport of the magnetized stellar wind, low-mass main sequence s...
Despite the prevalence of fully-convective stars, very few members of the field population have meas...
Aims. We study the evolution of stellar rotation and wind properties for low-mass main-sequence star...
12 pages, 7 figures, accepted to MNRASInternational audienceMagnetic activity is known to be correla...
Context. Understanding the origin and evolution of stellar angular momentum is one of the ...
International audienceObservations of stellar rotation show that low-mass stars lose angular momentu...