Add to ORKGLow-mass dense cores represent the state of molecular gas associated with the earliest phases of low-mass star formation. Such cores are called “protostellar ” or “starless, ” depending on whether they do or do not contain compact sources of luminosity. In this chapter, the first half of the review of low-mass dense cores, we describe the numerous inferences made about the nature of starless cores as a result of recent observations, since these reveal the initial conditions of star formation. We focus on the identification of isolated starless cores and their internal physical and chemical properties, including morphologies, densities, temperatures, kinematics, and molecular abundances. These objects display a wide range of properties since...
In order to understand physical processes of low-mass star formation, it is important to investigate...
Context. Starless cores represent a very early stage of the star formation process, before collapse...
Spitzer Space Telescope observations of a point-like source, L1014-IRS, close to the dust peak of t...
Low-mass dense cores represent the state of molecular gas associated with the earliest phases of low...
We review the properties of low mass dense molecular cloud cores, including starless, prestellar, an...
Dense low mass cores in nearby clouds like Taurus and Auriga are some of the simplest sites currentl...
We review the properties of low mass dense molecular cloud cores, including starless, prestellar, an...
Although the standard model of star formation has served us well for over 20 years, its details are ...
We present evidence that low-mass starless cores, the simplest units of star formation, are systemat...
Author Institution: INAF-Osservatorio Astrofisico di ArcetriStars like our Sun form in molecular clo...
Context.Low mass starless cores present an inhomogeneous chemical composition. Species like CO and ...
Aims.We have measured the deuterium fractionation and the CO depletion factor (ratio between expect...
We describe a model for the thermal and dynamical equilibrium of starless cores that includes the ra...
We observed the pre-stellar core L1521F in dust emission at 1.2 mm and in two transitions each of , ...
We present SMA and CARMA continuum and spectral line observations of five dense cores located in the...
In order to understand physical processes of low-mass star formation, it is important to investigate...
Context. Starless cores represent a very early stage of the star formation process, before collapse...
Spitzer Space Telescope observations of a point-like source, L1014-IRS, close to the dust peak of t...
Low-mass dense cores represent the state of molecular gas associated with the earliest phases of low...
We review the properties of low mass dense molecular cloud cores, including starless, prestellar, an...
Dense low mass cores in nearby clouds like Taurus and Auriga are some of the simplest sites currentl...
We review the properties of low mass dense molecular cloud cores, including starless, prestellar, an...
Although the standard model of star formation has served us well for over 20 years, its details are ...
We present evidence that low-mass starless cores, the simplest units of star formation, are systemat...
Author Institution: INAF-Osservatorio Astrofisico di ArcetriStars like our Sun form in molecular clo...
Context.Low mass starless cores present an inhomogeneous chemical composition. Species like CO and ...
Aims.We have measured the deuterium fractionation and the CO depletion factor (ratio between expect...
We describe a model for the thermal and dynamical equilibrium of starless cores that includes the ra...
We observed the pre-stellar core L1521F in dust emission at 1.2 mm and in two transitions each of , ...
We present SMA and CARMA continuum and spectral line observations of five dense cores located in the...
In order to understand physical processes of low-mass star formation, it is important to investigate...
Context. Starless cores represent a very early stage of the star formation process, before collapse...
Spitzer Space Telescope observations of a point-like source, L1014-IRS, close to the dust peak of t...