Add to ORKGThe formation of circumstellar disks is investigated using three-dimensional resistive magnetohydrodynamic simulations in which the initial prestellar cloud has a misaligned rotation axis with respect to the magnetic field. We examine the effects of (i) the initial angle difference between the global magnetic field and the cloud rotation axis (θ 0) and (ii) the ratio of the thermal to gravitational energy (α 0). We study 16 models in total and calculate the cloud evolution until ∼5000 yr after protostar formation. Our simulation results indicate that an initial nonzero θ 0 (\u3e0) promotes disk formation but tends to suppress outflow driving for models that are moderately gravitationally unstable, α 0 ≲ 1. In these models, a large-sized rot...
We analyse simulations of turbulent, magnetised molecular cloud cores focussing on the formation of ...
We numerically model the collapse of magnetic rotating protostellar clouds with mass of 10 M The sim...
International audienceOutflows and jets are intimately related to the formation of stars, and play a...
Context. In the context of star and planet formation, understanding the formation of disks is of fun...
Context. Grid-based hydrodynamics simulations of circumstellar disks are often performed in the curv...
The formation of a protostellar disc is a natural outcome during the star formation process. As gas ...
Recent observations have suggested that circumstellar disks may commonly form around young stellar o...
The gas from which stars form is magnetized, and strong magnetic fields can efficiently transport an...
Context. The thermodynamical evolution of gas during the collapse of the primordial star-forming clo...
Funding: European Research Council under the European Community’s Seventh Framework Programme (FP7/2...
International audienceContext. Planet-forming disks are fundamental objects that are thought to be i...
We analyse simulations of turbulent, magnetised molecular cloud cores focusing on the formation of C...
The influence of rotation and magnetic fields on the physical properties of isothermal gas clouds is...
The formation of protostellar disks out of molecular cloud cores is still not fully understood. Unde...
We analyse simulations of turbulent, magnetised molecular cloud cores focussing on the formation of ...
We numerically model the collapse of magnetic rotating protostellar clouds with mass of 10 M The sim...
International audienceOutflows and jets are intimately related to the formation of stars, and play a...
Context. In the context of star and planet formation, understanding the formation of disks is of fun...
Context. Grid-based hydrodynamics simulations of circumstellar disks are often performed in the curv...
The formation of a protostellar disc is a natural outcome during the star formation process. As gas ...
Recent observations have suggested that circumstellar disks may commonly form around young stellar o...
The gas from which stars form is magnetized, and strong magnetic fields can efficiently transport an...
Context. The thermodynamical evolution of gas during the collapse of the primordial star-forming clo...
Funding: European Research Council under the European Community’s Seventh Framework Programme (FP7/2...
International audienceContext. Planet-forming disks are fundamental objects that are thought to be i...
We analyse simulations of turbulent, magnetised molecular cloud cores focusing on the formation of C...
The influence of rotation and magnetic fields on the physical properties of isothermal gas clouds is...
The formation of protostellar disks out of molecular cloud cores is still not fully understood. Unde...
We analyse simulations of turbulent, magnetised molecular cloud cores focussing on the formation of ...
We numerically model the collapse of magnetic rotating protostellar clouds with mass of 10 M The sim...
International audienceOutflows and jets are intimately related to the formation of stars, and play a...