The interaction between weak magnetic fields and rotation can lead to instabilities that transport angular momentum (AM) and chemical elements affecting the evolution of massive stars. We explore the effects of the magneto-rotational instability (MRI) in massive stars to determine its impact on stellar evolution. We use the GENEC code to simulate the evolution of a 15 $M_\odot$ model at solar metallicity up to the end of oxygen burning. The MRI is computed with different trigger conditions, (depending on the weighting of chemical gradients through an arbitrary but commonly used factor), and with different treatments of meridional circulation as either advective or diffusive. We also compare the MRI with the Tayler-Spruit (TS) dynamo, in mod...
Contains fulltext : 35695.pdf (publisher's version ) (Closed access)The collapsar ...
Context. Magnetars are isolated neutron stars characterized by their variable high-energy emission, ...
Context. With growing evidence for the existence of very massive stars at subsolar metallicity, ther...
Context. The magneto-rotational instability (MRI) has been proposed as a mechanism to transport angu...
The magnetorotational instability (MRI) is key to physics in accretion disks and is widely considere...
Rotation has a number of important effects on the evolution of stars. It decreases the surface gravi...
We compare the current effects of rotation in stellar evolution to those of the magnetic field crea...
Magnetic fields can drastically change predictions of evolutionary models of massive stars via mass-...
We compare the current effects of rotation in stellar evolution to those of the magnetic field creat...
International audienceMagnetic fields are present in many different astrophysical objects, such as a...
Context. Rotational mixing in massive stars is a widely applied concept, with far-reaching consequen...
Massive stars are observed to rotate rapidly early in their lives, and this rotation significantly a...
We further develop the Tayler--Spruit dynamo theory, based on the most efficient instability for gen...
Aims. We present a new grid of massive Population III (Pop III) star models including the effects o...
The time evolution of angular momentum and surface rotation of massive stars are strongly influenced...
Contains fulltext : 35695.pdf (publisher's version ) (Closed access)The collapsar ...
Context. Magnetars are isolated neutron stars characterized by their variable high-energy emission, ...
Context. With growing evidence for the existence of very massive stars at subsolar metallicity, ther...
Context. The magneto-rotational instability (MRI) has been proposed as a mechanism to transport angu...
The magnetorotational instability (MRI) is key to physics in accretion disks and is widely considere...
Rotation has a number of important effects on the evolution of stars. It decreases the surface gravi...
We compare the current effects of rotation in stellar evolution to those of the magnetic field crea...
Magnetic fields can drastically change predictions of evolutionary models of massive stars via mass-...
We compare the current effects of rotation in stellar evolution to those of the magnetic field creat...
International audienceMagnetic fields are present in many different astrophysical objects, such as a...
Context. Rotational mixing in massive stars is a widely applied concept, with far-reaching consequen...
Massive stars are observed to rotate rapidly early in their lives, and this rotation significantly a...
We further develop the Tayler--Spruit dynamo theory, based on the most efficient instability for gen...
Aims. We present a new grid of massive Population III (Pop III) star models including the effects o...
The time evolution of angular momentum and surface rotation of massive stars are strongly influenced...
Contains fulltext : 35695.pdf (publisher's version ) (Closed access)The collapsar ...
Context. Magnetars are isolated neutron stars characterized by their variable high-energy emission, ...
Context. With growing evidence for the existence of very massive stars at subsolar metallicity, ther...