In this thesis we present a unified model for dense core formation and collapse within post-shock dense layers inside giant molecular clouds. Supersonic converging flows collide to compress low density gas to high density clumps, inside which gravitational collapse can happen. We consider both spherically symmetric and planar converging flows, and run models with inflow Mach number from 1.1-9 to investigate the relation between core properties and the bulk velocity dispersion of the mother cloud. Four stages of protostar formation are identified: core building, core collapse, envelope infall, and late accretion. The core building stage takes 10 times as long as core collapse, which lasts a few 105 yr, consistent with observed pres...
Observational evidence from local star-forming regions mandates that star formation occurs shortly a...
Compression in giant molecular cloud (GMC) collisions is a promising mechanism to trigger formation ...
Stars are born from dense cores of gas within molecular clouds. The exact nature of the connection b...
In this thesis we present a unified model for dense core formation and collapse within post-shock de...
We study the formation, evolution and collapse of dense cores by tracking density structures in a ma...
We study numerically the formation of molecular clouds in large-scale colliding flows including self...
The main goal of this thesis research is developing a theory to describe the early stages of star fo...
Bodenheimer and Burkert extended earlier calculations of cloud core models to study collapse and fra...
We present numerical hydrodynamic simulations of the formation, evolution, and gravitational collaps...
Observed molecular clouds often appear to have very low star formation efficiencies and lifetimes an...
This is the final published version. Available from the American Astronomical Society via the DOI in...
This dissertation analyzes some essential aspects of the physics of star-forming dense cores. A l...
We study the formation of giant dense cloud complexes and of stars within them using SPH numerical s...
We present an analysis of star-forming gas cores in a smooth particle hydrodynamics simulation of a ...
The gravitational collapse of a spherical cloud core is investigated by numerical calculations. The ...
Observational evidence from local star-forming regions mandates that star formation occurs shortly a...
Compression in giant molecular cloud (GMC) collisions is a promising mechanism to trigger formation ...
Stars are born from dense cores of gas within molecular clouds. The exact nature of the connection b...
In this thesis we present a unified model for dense core formation and collapse within post-shock de...
We study the formation, evolution and collapse of dense cores by tracking density structures in a ma...
We study numerically the formation of molecular clouds in large-scale colliding flows including self...
The main goal of this thesis research is developing a theory to describe the early stages of star fo...
Bodenheimer and Burkert extended earlier calculations of cloud core models to study collapse and fra...
We present numerical hydrodynamic simulations of the formation, evolution, and gravitational collaps...
Observed molecular clouds often appear to have very low star formation efficiencies and lifetimes an...
This is the final published version. Available from the American Astronomical Society via the DOI in...
This dissertation analyzes some essential aspects of the physics of star-forming dense cores. A l...
We study the formation of giant dense cloud complexes and of stars within them using SPH numerical s...
We present an analysis of star-forming gas cores in a smooth particle hydrodynamics simulation of a ...
The gravitational collapse of a spherical cloud core is investigated by numerical calculations. The ...
Observational evidence from local star-forming regions mandates that star formation occurs shortly a...
Compression in giant molecular cloud (GMC) collisions is a promising mechanism to trigger formation ...
Stars are born from dense cores of gas within molecular clouds. The exact nature of the connection b...