Astronomy and Astrophysics, volume 584A, 92-92 (2015/12-1)
Galactic cold cores. IV. Cold submillimetre sources: catalogue and statistical analysis.
MONTILLAUD J., JUVELA M., RIVERA-INGRAHAM A., MALINEN J., PELKONEN V.-M., RISTORCELLI I., MONTIER L., MARSHALL D.J., MARTON G., PAGANI L., TOTH L.V., ZAHORECZ S., YSARD N., McGEHEE P., PALADINI R., FALGARONE E., BERNARD J.-P., MOTTE F., ZAVAGNO A. and DOI Y.
Abstract (from CDS):
For the project Galactic cold cores, Herschel photometric observations were carried out as a follow-up of cold regions of interstellar clouds previously identified with the Planck satellite. The aim of the project is to derive the physical properties of the population of cold sources and to study its connection to ongoing and future star formation. We build a catalogue of cold sources within the clouds in 116 fields observed with the Herschel PACS and SPIRE instruments. We wish to determine the general physical characteristics of the cold sources and to examine the correlations with their host cloud properties. From Herschel data, we computed colour temperature and column density maps of the fields. We estimated the distance to the target clouds and provide both uncertainties and reliability flags for the distances. The getsources multiwavelength source extraction algorithm was employed to build a catalogue of several thousand cold sources. Mid-infrared data were used, along with colour and position criteria, to separate starless and protostellar sources. We also propose another classification method based on submillimetre temperature profiles. We analysed the statistical distributions of the physical properties of the source samples. We provide a catalogue of ∼4000 cold sources within or near star forming clouds, most of which are located either in nearby molecular complexes (≲1kpc) or in star forming regions of the nearby galactic arms (∼2kpc). About 70% of the sources have a size compatible with an individual core, and 35% of those sources are likely to be gravitationally bound. Significant statistical differences in physical properties are found between starless and protostellar sources, in column density versus dust temperature, mass versus size, and mass versus dust temperature diagrams. The core mass functions are very similar to those previously reported for other regions. On statistical grounds we find that gravitationally bound sources have higher background column densities (median Nbg(H2)∼5x1021cm–2) than unbound sources (median Nbg(H2)∼3x1021cm–2). These values of Nbg(H2) are higher for higher dust temperatures of the external layers of the parent cloud. However, only in a few cases do we find clear Nbg(H2) thresholds for the presence of cores. The dust temperatures of cloud external layers show clear variations with galactic location, as may the source temperatures. Our data support a more complex view of star formation than in the simple idea of a column density threshold. They show a clear influence of the surrounding UV-visible radiation on how cores distribute in their host clouds with possible variations on the Galactic scale.
catalogs - submillimeter: ISM - stars: formation - ISM: clouds
VizieR on-line data:
<Available at CDS (J/A+A/584/A92): table1.dat gccscat.dat>
Table B.1 (gccscat.dat): [MJR2015] NNNN (Nos 1-4466).
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