International audienceContext. The transport of angular momentum is fundamental during the formation of low-mass stars; too little removal and rotation ensures stellar densities are never reached, too much and the absence of rotation means no protoplanetary disks can form. Magnetic diffusion is seen as a pathway to resolving this long-standing problem. Aims: We aim to investigate the impact of including resistive magnetohydrodynamics (MHD) in simulations of the gravitational collapse of a 1 M⊙ gas sphere, from molecular cloud densities to the formation of the protostellar seed; the second Larson core. Methods: We used the adaptive mesh refinement code RAMSES to perform two 3D simulations of collapsing magnetised gas spheres, including sel...
This review describes realistic evolution of magnetic field and rotation of the protostars, dynamics...
Non-ideal magnetohydrodynamic (MHD) effects have been shown recently as a robust mechanism of averti...
International audienceContext. Massive star formation remains one of the most challenging problems i...
International audienceContext. The transport of angular momentum is fundamental during the formation...
Angular momentum transport and the formation of rotationally supported structures are major issues i...
In this paper, we provide a more accurate description of the evolution of the magnetic flux redistri...
The formation of protostellar disks out of molecular cloud cores is still not fully understood. Unde...
International audienceThrough the magnetic braking and the launching of protostellar outflows, magne...
I will present the results of magnetised dense cores collapse 3D simulations including ambipolar dif...
We follow the ambipolar-diffusion--driven formation and evolution of a fragment in a magnetically su...
The formation of stars is a fundamental unsolved problem in astrophysics. Interstellar molecular cl...
Context. Ideal magnetohydrodynamical (MHD) simulations have revealed catastrophic magnetic braking i...
The means by which parent molecular clouds give birth to stars constitutes a fundamental unsolved pr...
Context. Ideal magnetohydrodynamical (MHD) simulations have revealed catastrophic magnetic braking i...
This review describes realistic evolution of magnetic field and rotation of the protostars, dynamics...
Non-ideal magnetohydrodynamic (MHD) effects have been shown recently as a robust mechanism of averti...
International audienceContext. Massive star formation remains one of the most challenging problems i...
International audienceContext. The transport of angular momentum is fundamental during the formation...
Angular momentum transport and the formation of rotationally supported structures are major issues i...
In this paper, we provide a more accurate description of the evolution of the magnetic flux redistri...
The formation of protostellar disks out of molecular cloud cores is still not fully understood. Unde...
International audienceThrough the magnetic braking and the launching of protostellar outflows, magne...
I will present the results of magnetised dense cores collapse 3D simulations including ambipolar dif...
We follow the ambipolar-diffusion--driven formation and evolution of a fragment in a magnetically su...
The formation of stars is a fundamental unsolved problem in astrophysics. Interstellar molecular cl...
Context. Ideal magnetohydrodynamical (MHD) simulations have revealed catastrophic magnetic braking i...
The means by which parent molecular clouds give birth to stars constitutes a fundamental unsolved pr...
Context. Ideal magnetohydrodynamical (MHD) simulations have revealed catastrophic magnetic braking i...
This review describes realistic evolution of magnetic field and rotation of the protostars, dynamics...
Non-ideal magnetohydrodynamic (MHD) effects have been shown recently as a robust mechanism of averti...
International audienceContext. Massive star formation remains one of the most challenging problems i...