International audienceWe perform numerical simulations of dusty, supersonic turbulence in molecular clouds. We model 0.1, 1 and 10 μm sized dust grains at an initial dust-to-gas mass ratio of 1:100, solving the equations of combined gas and dust dynamics where the dust is coupled to the gas through a drag term. We show that, for 0.1 and 1 μm grains, the dust-to-gas ratio deviates by typically 10-20 per cent from the mean, since the stopping time of the dust due to the gas drag is short compared to the dynamical time. Contrary to previous findings, we find no evidence for orders of magnitude fluctuation in the dust-to-gas ratio for ∼0.1 μm grains. Larger, 10 μm dust grains may have dust-to-gas ratios increased by up to an order of magnitude ...
The cores in molecular clouds are the densest and coldest regions of the interstellar medium (ISM). ...
Item does not contain fulltextThe cores in molecular clouds are the densest and coldest regions of t...
<BR /> Aims: We aim to better understand how the spatial structure of molecular clouds is governed b...
International audienceWe perform numerical simulations of dusty, supersonic turbulence in molecular ...
International audienceContext. Dust grain dynamics in molecular clouds is regulated by its interplay...
We study the behaviour of large dust grains in turbulent molecular clouds (MCs). In primarily neutra...
We present high-resolution (1024 3) simulations of super-/hypersonic isothermal hydrodynamic turbule...
We examine the physical parameters that affect the accumulation of gas in molecular clouds to high c...
Maps of estimated dust column density in molecular clouds are usually assumed to reliably trace the ...
We argue that impact velocities between dust grains with sizes of less than ∼0.1 μm in molecular clo...
We study the dynamics of large, charged dust grains in turbulent giant molecular clouds (GMCs). Mass...
Dust grains in neutral gas behave as aerodynamic particles, so they can develop large local density ...
© 2017 ESO. Context. We revisit the study of shocks interacting with molecular clouds, incorporating...
The cores in molecular clouds are the densest and coldest regions of the interstellar medium (ISM). ...
International audienceWe study infrared emission of 17 isolated, diffuse clouds with masses of order...
The cores in molecular clouds are the densest and coldest regions of the interstellar medium (ISM). ...
Item does not contain fulltextThe cores in molecular clouds are the densest and coldest regions of t...
<BR /> Aims: We aim to better understand how the spatial structure of molecular clouds is governed b...
International audienceWe perform numerical simulations of dusty, supersonic turbulence in molecular ...
International audienceContext. Dust grain dynamics in molecular clouds is regulated by its interplay...
We study the behaviour of large dust grains in turbulent molecular clouds (MCs). In primarily neutra...
We present high-resolution (1024 3) simulations of super-/hypersonic isothermal hydrodynamic turbule...
We examine the physical parameters that affect the accumulation of gas in molecular clouds to high c...
Maps of estimated dust column density in molecular clouds are usually assumed to reliably trace the ...
We argue that impact velocities between dust grains with sizes of less than ∼0.1 μm in molecular clo...
We study the dynamics of large, charged dust grains in turbulent giant molecular clouds (GMCs). Mass...
Dust grains in neutral gas behave as aerodynamic particles, so they can develop large local density ...
© 2017 ESO. Context. We revisit the study of shocks interacting with molecular clouds, incorporating...
The cores in molecular clouds are the densest and coldest regions of the interstellar medium (ISM). ...
International audienceWe study infrared emission of 17 isolated, diffuse clouds with masses of order...
The cores in molecular clouds are the densest and coldest regions of the interstellar medium (ISM). ...
Item does not contain fulltextThe cores in molecular clouds are the densest and coldest regions of t...
<BR /> Aims: We aim to better understand how the spatial structure of molecular clouds is governed b...