[[abstract]]We study numerically the collapse of rotating magnetized molecular cloud cores, focusing on rotation and magnetic braking during the main accretion phase of isolated star formation. Motivated by previous numerical work and analytic considerations, we idealize the precollapse core as a magnetized singular isothermal toroid, with a constant rotational speed everywhere. The collapse starts from the center and propagates outward in an inside-out fashion, satisfying exact self-similarity in space and time. For rotation rates and field strengths typical of dense low-mass cores, the main feature remains the flattening of the mass distribution along field lines-the formation of a pseudodisk, as in the nonrotating cases. The density dist...
The formation of a protostellar disc is a natural outcome during the star formation process. As gas ...
The formation of a protostellar disc is a natural outcome during the star formation process. As gas ...
Context. In the context of star and planet formation, understanding the formation of disks is of fun...
[[abstract]]We study numerically the collapse of nonrotating self-gravitating magnetized singular is...
We present self-similar solutions that describe the gravitational collapse of rotating, isothermal, ...
Dynamical collapses of magnetized molecular cloud cores are studied with magnetohydrodynamical simul...
[[abstract]]We study the self-similar collapse of an isothermal magnetized rotating cloud in the ide...
Molecular cloud cores, in which star formation process now proceeds, are often found with elongated ...
[[abstract]]We study the gravitational collapse of an isothermal disk which is isopedically magnetiz...
[[abstract]]We consider the end states for a quasi-magnetostatic phase of evolution of molecular clo...
This is the author accepted manuscript. The final version is available from IOP Publishing via the D...
The collapse and fragmentation of initially filamentary, magnetic molecular clouds is calculated in ...
The evolution of the magnetic field and angular momentum in the collapsing cloud core is studied usi...
The means by which parent molecular clouds give birth to stars constitutes a fundamental unsolved pr...
Angular momentum is playing a key role during the collapse of prestellar cores since it is leading t...
The formation of a protostellar disc is a natural outcome during the star formation process. As gas ...
The formation of a protostellar disc is a natural outcome during the star formation process. As gas ...
Context. In the context of star and planet formation, understanding the formation of disks is of fun...
[[abstract]]We study numerically the collapse of nonrotating self-gravitating magnetized singular is...
We present self-similar solutions that describe the gravitational collapse of rotating, isothermal, ...
Dynamical collapses of magnetized molecular cloud cores are studied with magnetohydrodynamical simul...
[[abstract]]We study the self-similar collapse of an isothermal magnetized rotating cloud in the ide...
Molecular cloud cores, in which star formation process now proceeds, are often found with elongated ...
[[abstract]]We study the gravitational collapse of an isothermal disk which is isopedically magnetiz...
[[abstract]]We consider the end states for a quasi-magnetostatic phase of evolution of molecular clo...
This is the author accepted manuscript. The final version is available from IOP Publishing via the D...
The collapse and fragmentation of initially filamentary, magnetic molecular clouds is calculated in ...
The evolution of the magnetic field and angular momentum in the collapsing cloud core is studied usi...
The means by which parent molecular clouds give birth to stars constitutes a fundamental unsolved pr...
Angular momentum is playing a key role during the collapse of prestellar cores since it is leading t...
The formation of a protostellar disc is a natural outcome during the star formation process. As gas ...
The formation of a protostellar disc is a natural outcome during the star formation process. As gas ...
Context. In the context of star and planet formation, understanding the formation of disks is of fun...