Two Mass Distributions in the L 1641 Molecular Clouds: The Herschel connection of Dense Cores and Filaments in Orion A
Language
en
Article de revue
This item was published in
The Astrophysical journal letters. 2013, vol. 777, n° 2, p. id. L33
Bristol : IOP Publishing
English Abstract
We present the Herschel Gould Belt survey maps of the L\,1641 molecular clouds in Orion A. We extracted both the filaments and dense cores in the region. We identified which of dense sources are proto- or pre-stellar, and ...Read more >
We present the Herschel Gould Belt survey maps of the L\,1641 molecular clouds in Orion A. We extracted both the filaments and dense cores in the region. We identified which of dense sources are proto- or pre-stellar, and studied their association with the identified filaments. We find that although most (71%) of the pre-stellar sources are located on filaments there is still a significant fraction of sources not associated with such structures. We find that these two populations (on and off the identified filaments) have distinctly different mass distributions. The mass distribution of the sources on the filaments is found to peak at 4 Solar masses and drives the shape of the CMF at higher masses, which we fit with a power law of the form d$N$/dlog$M \propto M^{-1.4\pm0.4}$. The mass distribution of the sources off the filaments, on the other hand, peaks at 0.8 Solar masses and leads to a flattening of the CMF at masses lower than ~4 Solar masses. We postulate that this difference between the mass distributions is due to the higher proportion of gas that is available in the filaments, rather than in the diffuse cloud.Read less <
English Keywords
Astrophysics
Galaxy Astrophysics
Origin
Hal imported