Add to ORKGWe describe a model for the thermal and dynamical equilibrium of starless cores that includes the radiative transfer of the gas and dust and simple CO chemistry. The model shows that the structure and behavior of the cores is significantly different depending on whether the central density is either above or below about 105 cm−3. This density is significant as the critical density for gas cooling by gas-dust collisions and also as the critical density for dynamical stability, given the typical properties of the starless cores. The starless cores thus divide into two classes that we refer to as thermally super-critical and thermally sub-critical. This two-class distinction allows an improved interpretation of the different observational data...
In a previous paper, we identified cores within infrared dark clouds. We regarded those without embe...
Context. The deuterium fractionation in starless cores gives us a clue to estimate their lifetime sc...
We investigate molecular evolution in a star-forming core that is initially a hydrostatic starless c...
We test the hypothesis that the starless cores may be gravitationally bound clouds supported largely...
We present evidence that low-mass starless cores, the simplest units of star formation, are systemat...
Dense low mass cores in nearby clouds like Taurus and Auriga are some of the simplest sites currentl...
We present SMA and CARMA continuum and spectral line observations of five dense cores located in the...
Context. In the dense and cold interiors of starless molecular cloud cores, a number of ch...
Low-mass dense cores represent the state of molecular gas associated with the earliest phases of low...
Low-mass dense cores represent the state of molecular gas associated with the earliest phases of low...
Aims. We aim to simulate radial profiles of molecular abundances and the gas temperature in cold and...
We have made self-consistent models of the density and temperature profiles of the gas and dust surr...
We have considered the thermal equilibrium in pre-protostellar cores in the approximation where the ...
We have characterized the physical structure and chemical composition of two close-to-round starles...
Context. In the dense and cold interiors of starless molecular cloud cores, a number of chemical pro...
In a previous paper, we identified cores within infrared dark clouds. We regarded those without embe...
Context. The deuterium fractionation in starless cores gives us a clue to estimate their lifetime sc...
We investigate molecular evolution in a star-forming core that is initially a hydrostatic starless c...
We test the hypothesis that the starless cores may be gravitationally bound clouds supported largely...
We present evidence that low-mass starless cores, the simplest units of star formation, are systemat...
Dense low mass cores in nearby clouds like Taurus and Auriga are some of the simplest sites currentl...
We present SMA and CARMA continuum and spectral line observations of five dense cores located in the...
Context. In the dense and cold interiors of starless molecular cloud cores, a number of ch...
Low-mass dense cores represent the state of molecular gas associated with the earliest phases of low...
Low-mass dense cores represent the state of molecular gas associated with the earliest phases of low...
Aims. We aim to simulate radial profiles of molecular abundances and the gas temperature in cold and...
We have made self-consistent models of the density and temperature profiles of the gas and dust surr...
We have considered the thermal equilibrium in pre-protostellar cores in the approximation where the ...
We have characterized the physical structure and chemical composition of two close-to-round starles...
Context. In the dense and cold interiors of starless molecular cloud cores, a number of chemical pro...
In a previous paper, we identified cores within infrared dark clouds. We regarded those without embe...
Context. The deuterium fractionation in starless cores gives us a clue to estimate their lifetime sc...
We investigate molecular evolution in a star-forming core that is initially a hydrostatic starless c...