To interpret the wide variation in observed chemical abundances during the red giant phase of evolution, it is necessary to develop theoretical and computational modeling of convection under realistic stellar conditions. In this contribution we quantify mixing due to convective penetration in the deep stellar interior through global hydrodynamic simulations. We produce the evolutionary track of a 3 solar mass red giant using the 1D stellar evolution code MESA. We select models from this evolutionary track at different points in time, beginning at the first dredge-up and spanning the brief period of time of the red giant luminosity bump. The realistic stratification in density, temperature, and luminosity of these models is then used to...
Convection plays a key role in the evolution of massive stars. Despite many decades of work on this ...
Context. Convective overshoot mixing is a critical ingredient of stellar structure models but is tre...
Aims. By means of numerical simulations and different recipes, we test the efficiency of t...
The present knowledge of stellar evolution is still limited today by large uncertainties that derive...
Our understanding of stellar structure and evolution coming from one-dimensional (1D) stellar models...
The main-sequence evolution of intermediate- and high-mass stars is driven by the mass of their conv...
Context. Fingering (thermohaline) convection has been invoked for several years as a possible extra-...
State-of-the-art 1D stellar evolution codes rely on simplifying assumptions, such as mixing length t...
To interpret high-quality data produced from recent space missions such as Kepler and TESS, it is ne...
In this contribution we present initial results of a study on convective boundary mixing (CBM) in ma...
Context. Internal chemical mixing in intermediate- and high-mass stars represents an immense uncerta...
Context. Red giant stars are important tracers of stellar populations in the Galaxy and beyond, thus...
Context. The evolution of massive stars is strongly influenced by internal mixing processes such as ...
In this work, we investigate the impact of uncertainties due to convective boundary mixing (CBM), co...
In this paper we present a new formulation of diffusive mixing in stellar interiors aimed at casting...
Convection plays a key role in the evolution of massive stars. Despite many decades of work on this ...
Context. Convective overshoot mixing is a critical ingredient of stellar structure models but is tre...
Aims. By means of numerical simulations and different recipes, we test the efficiency of t...
The present knowledge of stellar evolution is still limited today by large uncertainties that derive...
Our understanding of stellar structure and evolution coming from one-dimensional (1D) stellar models...
The main-sequence evolution of intermediate- and high-mass stars is driven by the mass of their conv...
Context. Fingering (thermohaline) convection has been invoked for several years as a possible extra-...
State-of-the-art 1D stellar evolution codes rely on simplifying assumptions, such as mixing length t...
To interpret high-quality data produced from recent space missions such as Kepler and TESS, it is ne...
In this contribution we present initial results of a study on convective boundary mixing (CBM) in ma...
Context. Internal chemical mixing in intermediate- and high-mass stars represents an immense uncerta...
Context. Red giant stars are important tracers of stellar populations in the Galaxy and beyond, thus...
Context. The evolution of massive stars is strongly influenced by internal mixing processes such as ...
In this work, we investigate the impact of uncertainties due to convective boundary mixing (CBM), co...
In this paper we present a new formulation of diffusive mixing in stellar interiors aimed at casting...
Convection plays a key role in the evolution of massive stars. Despite many decades of work on this ...
Context. Convective overshoot mixing is a critical ingredient of stellar structure models but is tre...
Aims. By means of numerical simulations and different recipes, we test the efficiency of t...