Add to ORKGIn this paper we study the effects of rotation in low-mass, low-metallicity RGB stars. We present the first evolutionary models taking into account self-consistently the latest prescriptions for the transport of angular momentum by meridional circulation and shear turbulence in stellar interiors as well as the associated mixing processes for chemicals computed from the ZAMS to the upper RGB. We discuss in details the uncertainties associated with the physical description of the rotational mixing and study carefully their effects on the rotation profile, diffusion coefficients, structural evolution, lifetimes and chemical signatures at the stellar surface. We focus in particular on the various assumptions concerning the rotation law in the c...
Models of rotating single stars can successfully account for a wide variety of observed stellar phen...
The standard model of stellar structure is unable to account for various observational facts, such a...
International audienceContext. Open clusters provide unambiguous clues to understand the evolution o...
Aims.In this paper we study the effects of rotation in low-mass, low-metallicity RGB stars. ...
Red giant (RGB) stars in the field and in globular clusters present abundance anomalies that can not...
Low-mass stars (<2–2.5 M๏) exhibit, at all the stages of their evolution, signatures of processes th...
We use a fully self-consistent evolutionary code to follow the rotational evolution of low-mass red ...
Contrary to what is assumed in building standard stellar models, all stars undergo some mild mixing...
Although it presently includes convective overshoot, microscopic diffusion, gravitational settling a...
Context. Aims.We examine the role of rotation on the evolution and chemical yields of very metal-po...
International audienceContext. When modelling stars with masses higher than 1.2 M⊙ with no observed ...
Context. When modelling stars with masses higher than 1.2 M⊙ with no observed chemical peculiarity, ...
We have performed the first three-dimensional non-linear simulation of the turbulent convective enve...
Stellar models which incorporate simple diffusion or shear induced mixing are used to describe canon...
Context. Observations of solar-like oscillations obtained either from the ground or from space stimu...
Models of rotating single stars can successfully account for a wide variety of observed stellar phen...
The standard model of stellar structure is unable to account for various observational facts, such a...
International audienceContext. Open clusters provide unambiguous clues to understand the evolution o...
Aims.In this paper we study the effects of rotation in low-mass, low-metallicity RGB stars. ...
Red giant (RGB) stars in the field and in globular clusters present abundance anomalies that can not...
Low-mass stars (<2–2.5 M๏) exhibit, at all the stages of their evolution, signatures of processes th...
We use a fully self-consistent evolutionary code to follow the rotational evolution of low-mass red ...
Contrary to what is assumed in building standard stellar models, all stars undergo some mild mixing...
Although it presently includes convective overshoot, microscopic diffusion, gravitational settling a...
Context. Aims.We examine the role of rotation on the evolution and chemical yields of very metal-po...
International audienceContext. When modelling stars with masses higher than 1.2 M⊙ with no observed ...
Context. When modelling stars with masses higher than 1.2 M⊙ with no observed chemical peculiarity, ...
We have performed the first three-dimensional non-linear simulation of the turbulent convective enve...
Stellar models which incorporate simple diffusion or shear induced mixing are used to describe canon...
Context. Observations of solar-like oscillations obtained either from the ground or from space stimu...
Models of rotating single stars can successfully account for a wide variety of observed stellar phen...
The standard model of stellar structure is unable to account for various observational facts, such a...
International audienceContext. Open clusters provide unambiguous clues to understand the evolution o...