We present self-similar solutions that describe the gravitational collapse of rotating, isothermal, magnetic molecular-cloud cores, relevant to the formation of rotationally supported protostellar disks. This work focuses on the evolution after a point mass first forms at the center and generalizes previous results by Contopoulos, Ciolek, & Konigl that did not include rotation. Our model includes ambipolar diffusion and magnetic braking and allows us to examine the full range of expected behaviors and their dependence on the physical parameters. For typical parameter values, the inflow first passes through an ambipolar-diffusion shock (at a radius r_a, where the magnetic flux decouples from the matter), and later through a centrifugal shock...
Interstellar molecular clouds are generally believed to be the sites of active star formation in our...
We present collapse simulations of 100 M, turbulent cloud cores threaded by a strong magnetic field....
The collapse and fragmentation of initially filamentary, magnetic molecular clouds is calculated in ...
The means by which parent molecular clouds give birth to stars constitutes a fundamental unsolved pr...
[[abstract]]We consider models of the processes by which a molecular cloud acquires dense cores, a (...
Context. Planet-forming disks are fundamental objects that are thought to be inherited from large sc...
Dynamical collapses of magnetized molecular cloud cores are studied with magnetohydrodynamical simul...
[[abstract]]We study numerically the collapse of rotating magnetized molecular cloud cores, focusing...
Aims. We investigate the influence of turbulent viscosity on the collapse of a rotating mo...
International audienceContext. The transport of angular momentum is fundamental during the formation...
We study the self-similar collapse of an isothermal magnetized rotating cloud in the ideal magnetohy...
We present some important conclusions from models of the collapse of rotating molecular cloud cores ...
[[abstract]]We study the self-similar collapse of an isothermal magnetized rotating cloud in the ide...
The formation of protostellar disks out of molecular cloud cores is still not fully understood. Unde...
The formation of a protostellar disc is a natural outcome during the star formation process. As gas ...
Interstellar molecular clouds are generally believed to be the sites of active star formation in our...
We present collapse simulations of 100 M, turbulent cloud cores threaded by a strong magnetic field....
The collapse and fragmentation of initially filamentary, magnetic molecular clouds is calculated in ...
The means by which parent molecular clouds give birth to stars constitutes a fundamental unsolved pr...
[[abstract]]We consider models of the processes by which a molecular cloud acquires dense cores, a (...
Context. Planet-forming disks are fundamental objects that are thought to be inherited from large sc...
Dynamical collapses of magnetized molecular cloud cores are studied with magnetohydrodynamical simul...
[[abstract]]We study numerically the collapse of rotating magnetized molecular cloud cores, focusing...
Aims. We investigate the influence of turbulent viscosity on the collapse of a rotating mo...
International audienceContext. The transport of angular momentum is fundamental during the formation...
We study the self-similar collapse of an isothermal magnetized rotating cloud in the ideal magnetohy...
We present some important conclusions from models of the collapse of rotating molecular cloud cores ...
[[abstract]]We study the self-similar collapse of an isothermal magnetized rotating cloud in the ide...
The formation of protostellar disks out of molecular cloud cores is still not fully understood. Unde...
The formation of a protostellar disc is a natural outcome during the star formation process. As gas ...
Interstellar molecular clouds are generally believed to be the sites of active star formation in our...
We present collapse simulations of 100 M, turbulent cloud cores threaded by a strong magnetic field....
The collapse and fragmentation of initially filamentary, magnetic molecular clouds is calculated in ...