Bodenheimer and Burkert extended earlier calculations of cloud core models to study collapse and fragmentation. The initial condition for an SPH collapse calculation is the density distribution of a Bonnor-Ebert sphere, with near balance between turbulent plus thermal energy and gravitational energy. The main parameter is the turbulent Mach number. For each Mach number several runs are made, each with a different random realization of the initial turbulent velocity field. The turbulence decays on a dynamical time scale, leading the cloud into collapse. The collapse proceeds isothermally until the density has increased to about 10(exp 13) g cm(exp -3). Then heating is included in the dense regions. The nature of the fragmentation is investig...
Context. Properties of candidate stars, forming out of molecular clouds, depend on the ambient condi...
We examine the conditions under which binary and multiple stars may form out of turbulent molecular ...
We present numerical investigations into the formation of massive stars from turbulent cores of dens...
We present an analysis of star-forming gas cores in a smooth particle hydrodynamics simulation of a ...
We study the formation of giant dense cloud complexes and of stars within them using SPH numerical s...
In this thesis we present a unified model for dense core formation and collapse within post-shock de...
Context. Observations suggest that low-mass stars condense out of dense, relatively isolated, molecu...
We examine the formation of bound coherent clumps within the environment of turbulent molecular clou...
We present numerical hydrodynamic simulations of the formation, evolution, and gravitational collaps...
Studies of the distribution of young stars in well-known regions of star formation indicate the exis...
Context. Properties of candidate stars, forming out of molecular clouds, depend on the ambient condi...
We present results from the first three-dimensional calculations ever to follow the collapse of a mo...
The continued detection of binary systems among pre-main-sequence stars suggests that fragmentation...
We investigate the origin of the observed scaling j ~ R3/2 between the specific angular momentum j a...
In this thesis we present a unified model for dense core formation and collapse within post-shock d...
Context. Properties of candidate stars, forming out of molecular clouds, depend on the ambient condi...
We examine the conditions under which binary and multiple stars may form out of turbulent molecular ...
We present numerical investigations into the formation of massive stars from turbulent cores of dens...
We present an analysis of star-forming gas cores in a smooth particle hydrodynamics simulation of a ...
We study the formation of giant dense cloud complexes and of stars within them using SPH numerical s...
In this thesis we present a unified model for dense core formation and collapse within post-shock de...
Context. Observations suggest that low-mass stars condense out of dense, relatively isolated, molecu...
We examine the formation of bound coherent clumps within the environment of turbulent molecular clou...
We present numerical hydrodynamic simulations of the formation, evolution, and gravitational collaps...
Studies of the distribution of young stars in well-known regions of star formation indicate the exis...
Context. Properties of candidate stars, forming out of molecular clouds, depend on the ambient condi...
We present results from the first three-dimensional calculations ever to follow the collapse of a mo...
The continued detection of binary systems among pre-main-sequence stars suggests that fragmentation...
We investigate the origin of the observed scaling j ~ R3/2 between the specific angular momentum j a...
In this thesis we present a unified model for dense core formation and collapse within post-shock d...
Context. Properties of candidate stars, forming out of molecular clouds, depend on the ambient condi...
We examine the conditions under which binary and multiple stars may form out of turbulent molecular ...
We present numerical investigations into the formation of massive stars from turbulent cores of dens...