Add to ORKGInternational audienceImproving our understanding of the earliest stages of star formation is crucial to gain insight into the origin of stellar masses, multiple systems and protoplanetary disks. We discuss recent advances made in this area thanks to detailed mapping observations at infrared and (sub)millimeter wavelengths. Although ambipolar diffusion appears to be too slow to play a direct role in the formation of dense cores, there is nevertheless good evidence that the gravitational collapse of isolated protostellar cores is strongly magnetically controlled. We also argue that the beginning of protostellar collapse is much more violent in cluster-forming clouds than in regions of distributed star formation
Context. Stars are born deeply embedded in molecular clouds. In the earliest embedded phases, protos...
Our current understanding of the physical processes of star formation is reviewed, with emphasis on ...
Dense molecular cloud cores are studied statistically in nearby (d less than or equal to 200 pc) sta...
International audienceImproving our understanding of the earliest stages of star formation is crucia...
Improving our understanding of the earliest stages of star formation is crucial to gain insight into...
12 pages, 9 figures, to appear in the proceedings of the conference \"Chemistry as a Diagnostic of S...
[[abstract]]We consider models of the processes by which a molecular cloud acquires dense cores, a (...
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 ...
Despite recent progress, the first stages of cloud fragmentation and core collapse remain poorly kno...
This review describes realistic evolution of magnetic field and rotation of the protostars, dynamics...
We review the properties of low mass dense molecular cloud cores, including starless, prestellar, an...
It has already been suggested that a threshold in column density - or in visual extinction - may nee...
Young massive clusters (YMCs) are the most compact, high-mass stellar systems still forming at the p...
I will present the results of magnetised dense cores collapse 3D simulations including ambipolar dif...
Context. Stars are born deeply embedded in molecular clouds. In the earliest embedded phases, protos...
Our current understanding of the physical processes of star formation is reviewed, with emphasis on ...
Dense molecular cloud cores are studied statistically in nearby (d less than or equal to 200 pc) sta...
International audienceImproving our understanding of the earliest stages of star formation is crucia...
Improving our understanding of the earliest stages of star formation is crucial to gain insight into...
12 pages, 9 figures, to appear in the proceedings of the conference \"Chemistry as a Diagnostic of S...
[[abstract]]We consider models of the processes by which a molecular cloud acquires dense cores, a (...
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 ...
Despite recent progress, the first stages of cloud fragmentation and core collapse remain poorly kno...
This review describes realistic evolution of magnetic field and rotation of the protostars, dynamics...
We review the properties of low mass dense molecular cloud cores, including starless, prestellar, an...
It has already been suggested that a threshold in column density - or in visual extinction - may nee...
Young massive clusters (YMCs) are the most compact, high-mass stellar systems still forming at the p...
I will present the results of magnetised dense cores collapse 3D simulations including ambipolar dif...
Context. Stars are born deeply embedded in molecular clouds. In the earliest embedded phases, protos...
Our current understanding of the physical processes of star formation is reviewed, with emphasis on ...
Dense molecular cloud cores are studied statistically in nearby (d less than or equal to 200 pc) sta...