Thanks to asteroseismology, constraints on the core rotation rate are available for hundreds of low- and intermediate-mass stars in evolved phases. Current physical processes tested in stellar evolution models cannot reproduce the evolution of these core rotation rates. We investigate the efficiency of the internal angular momentum redistribution in red giants during the hydrogen shell and core-helium burning phases based on the asteroseismic determinations of their core rotation rates. We compute stellar evolution models with rotation and model the transport of angular momentum by the action of a sole dominant diffusive process parametrized by an additional viscosity. We constrain the values of this viscosity to match the mean core rotatio...
Context Transport of angular momentum has been a challenging topic within the stellar evolution com...
Asteroseismology of 1.0 − 2.0M red giants by the Kepler satellite has enabled the first definitive m...
International audienceContext. Asteroseismic observations enable the characterisation of the interna...
Context. Asteroseismology provides constraints on the core rotation rate for hundreds of low- and in...
International audienceContext. Asteroseismology provides constraints on the core rotation rate for h...
Context: Constraints on the internal rotation of red giants are now available thanks to asteroseismi...
International audienceContext. Constraints on the internal rotation of red giants are now available ...
Context. The observations of solar-like oscillations in evolved stars have brought important constra...
Context. Transport of angular momentum has been a challenging topic within the stellar evolution com...
peer reviewedContext. The observations of solar-like oscillations in evolved stars have brought impo...
Asteroseismic data obtained by the Kepler spacecraft have led to the recent detection and characteri...
peer reviewedContext. Recent asteroseismic observations have led to the determination of rotational ...
Context Transport of angular momentum has been a challenging topic within the stellar evolution com...
Asteroseismology of 1.0 − 2.0M red giants by the Kepler satellite has enabled the first definitive m...
International audienceContext. Asteroseismic observations enable the characterisation of the interna...
Context. Asteroseismology provides constraints on the core rotation rate for hundreds of low- and in...
International audienceContext. Asteroseismology provides constraints on the core rotation rate for h...
Context: Constraints on the internal rotation of red giants are now available thanks to asteroseismi...
International audienceContext. Constraints on the internal rotation of red giants are now available ...
Context. The observations of solar-like oscillations in evolved stars have brought important constra...
Context. Transport of angular momentum has been a challenging topic within the stellar evolution com...
peer reviewedContext. The observations of solar-like oscillations in evolved stars have brought impo...
Asteroseismic data obtained by the Kepler spacecraft have led to the recent detection and characteri...
peer reviewedContext. Recent asteroseismic observations have led to the determination of rotational ...
Context Transport of angular momentum has been a challenging topic within the stellar evolution com...
Asteroseismology of 1.0 − 2.0M red giants by the Kepler satellite has enabled the first definitive m...
International audienceContext. Asteroseismic observations enable the characterisation of the interna...