Add to ORKG[[abstract]]We discuss the structure and evolution of a magnetized accretion disks around young stars that have dragged their magnetic field in the process of gravitational collapse. The disk evolves due to two diffusive processes: viscous stresses that redistribute mass and angular momentum, and the resistive diffusion of mass across magnetic field lines due to imperfect conduction. In steady-state there is an analytic model of the structure of these magnetized disks. We discuss the application of this model to disks around low and high mass young stars and recent results of time dependent models.[[fileno]]2010118030003[[department]]物理
We present simulations of collapsing 100 M mass cores in the context of massive star formation. The ...
We investigate the evolution of a thin viscous disc surrounding a magnetic star, including the spin-...
[[abstract]]We propose a generalized model for stellar spin-down, disk accretion, and truncation, an...
[[abstract]]We discuss the structure and evolution of a magnetized accretion disks around young star...
[[abstract]]We summarize recent work addressing the role of magnetic fields in the process of star f...
We consider the accretion process in a disk with magnetic fields that are dragged in from the inters...
[[abstract]]We summarize recent theoretical work addressing the role of magnetic fields in the proce...
Recent observations have suggested that circumstellar disks may commonly form around young stellar o...
We investigate the large-scale fossil magnetic field in the accretion disks of young stars [1,2]. We...
We investigated disk accretion onto a magnetized young star by performing MHD numerical simula-tions...
Geometrically thin, optically thick, turbulent accretion disks are believed to surround many stars. ...
We investigate the dynamics of the accretion disks of young stars with fossil large-scale magnetic f...
In this thesis, we examine the role of accretion disks in the formation of stellar systems, focusing...
Young stars such as protostars and pre-main-sequence stars evolve via the interaction with the surro...
International audiencePlanets form in the gaseous and dusty disks orbiting young stars. These protop...
We present simulations of collapsing 100 M mass cores in the context of massive star formation. The ...
We investigate the evolution of a thin viscous disc surrounding a magnetic star, including the spin-...
[[abstract]]We propose a generalized model for stellar spin-down, disk accretion, and truncation, an...
[[abstract]]We discuss the structure and evolution of a magnetized accretion disks around young star...
[[abstract]]We summarize recent work addressing the role of magnetic fields in the process of star f...
We consider the accretion process in a disk with magnetic fields that are dragged in from the inters...
[[abstract]]We summarize recent theoretical work addressing the role of magnetic fields in the proce...
Recent observations have suggested that circumstellar disks may commonly form around young stellar o...
We investigate the large-scale fossil magnetic field in the accretion disks of young stars [1,2]. We...
We investigated disk accretion onto a magnetized young star by performing MHD numerical simula-tions...
Geometrically thin, optically thick, turbulent accretion disks are believed to surround many stars. ...
We investigate the dynamics of the accretion disks of young stars with fossil large-scale magnetic f...
In this thesis, we examine the role of accretion disks in the formation of stellar systems, focusing...
Young stars such as protostars and pre-main-sequence stars evolve via the interaction with the surro...
International audiencePlanets form in the gaseous and dusty disks orbiting young stars. These protop...
We present simulations of collapsing 100 M mass cores in the context of massive star formation. The ...
We investigate the evolution of a thin viscous disc surrounding a magnetic star, including the spin-...
[[abstract]]We propose a generalized model for stellar spin-down, disk accretion, and truncation, an...