In a recent paper, Elmegreen (2000) has made a cogent case, from an observational point of view, that the lifetimes of molecular clouds are comparable to their dynamical timescales. If so, this has important implications for the mechanisms by which molecular clouds form. In particular we consider the hypothesis that molecular clouds may form not by {\it in situ} cooling of atomic gas, but rather by the agglomeration of the dense phase of the interstellar medium (ISM), much, if not most, of which is already in molecular form
We present semi-analytic dynamical models for giant molecular clouds evolving under the influence of...
We study the properties of giant molecular clouds (GMCs) from a smoothed particle hydrodynamics sim...
Most young stars in nearby molecular clouds have estimated ages of 1–2 Myr, suggesting that star for...
Observations of both star-forming regions and young, gas-free stellar associations indicate that mos...
We use passive gas tracer particles in an Arepo simulation of a dwarf spiral galaxy to relate the La...
[[abstract]]Molecular clouds constitute the densest parts of the interstellar medium in galax- ies, ...
We revisit the problem of the star formation timescale and the ages of molecular clouds. The apparen...
International audienceIt remains a major challenge to derive a theory of cloud-scale (≲100 pc) star ...
Molecular Cloud Complexes (MCCs) are highly structured and ``turbulent''. Observational evidence sug...
A large fraction of the gas in the Galaxy is cold, dense, and molecular. If all this gas collapsed u...
On galactic scales, the surface density of star formation appears to be well correlated with the sur...
Molecular clouds are the sites where new stars form. Spectroscopic observations of different molecul...
Giant molecular clouds (GMCs) are well studied in the local Universe, however, exactly how their pro...
We analyse the results of four simulations of isolated galaxies: two with a rigid spi-ral potential ...
We introduce a model for the large-scale, global 3D structure of molecular clouds. Motivated by the ...
We present semi-analytic dynamical models for giant molecular clouds evolving under the influence of...
We study the properties of giant molecular clouds (GMCs) from a smoothed particle hydrodynamics sim...
Most young stars in nearby molecular clouds have estimated ages of 1–2 Myr, suggesting that star for...
Observations of both star-forming regions and young, gas-free stellar associations indicate that mos...
We use passive gas tracer particles in an Arepo simulation of a dwarf spiral galaxy to relate the La...
[[abstract]]Molecular clouds constitute the densest parts of the interstellar medium in galax- ies, ...
We revisit the problem of the star formation timescale and the ages of molecular clouds. The apparen...
International audienceIt remains a major challenge to derive a theory of cloud-scale (≲100 pc) star ...
Molecular Cloud Complexes (MCCs) are highly structured and ``turbulent''. Observational evidence sug...
A large fraction of the gas in the Galaxy is cold, dense, and molecular. If all this gas collapsed u...
On galactic scales, the surface density of star formation appears to be well correlated with the sur...
Molecular clouds are the sites where new stars form. Spectroscopic observations of different molecul...
Giant molecular clouds (GMCs) are well studied in the local Universe, however, exactly how their pro...
We analyse the results of four simulations of isolated galaxies: two with a rigid spi-ral potential ...
We introduce a model for the large-scale, global 3D structure of molecular clouds. Motivated by the ...
We present semi-analytic dynamical models for giant molecular clouds evolving under the influence of...
We study the properties of giant molecular clouds (GMCs) from a smoothed particle hydrodynamics sim...
Most young stars in nearby molecular clouds have estimated ages of 1–2 Myr, suggesting that star for...