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http://hdl.handle.net/20.500.12386/31090
Titolo: | Herschel Gould Belt Survey Observations of Dense Cores in the Cepheus Flare Clouds | Autori: | Di Francesco, James Keown, Jared Fallscheer, Cassandra André, Philippe Ladjelate, Bilal Könyves, Vera Men'shchikov, Alexander Stephens-Whale, Shaun Nguyen-Luong, Quang Martin, Peter Sadavoy, Sarah PEZZUTO, Stefano FIORELLINO, ELEONORA BENEDETTINI, Milena Schneider, Nicola Bontemps, Sylvain Arzoumanian, Doris Palmeirim, Pedro Kirk, Jason M. Ward-Thompson, Derek |
Data pubblicazione: | 2020 | Rivista: | THE ASTROPHYSICAL JOURNAL | Numero: | 904 | Fascicolo: | 2 | Da pagina:: | 172 | Abstract: | We present Herschel SPIRE and PACS maps of the Cepheus Flare clouds L1157, L1172, L1228, L1241, and L1251, observed by the Herschel Gould Belt Survey of nearby star-forming molecular clouds. Through modified blackbody fits to the SPIRE and PACS data, we determine typical cloud column densities of (0.5─1.0) × 10<SUP>21</SUP> cm<SUP>−2</SUP> and typical cloud temperatures of 14─15 K. Using the getsources identification algorithm, we extract 832 dense cores from the SPIRE and PACS data at 160─500 μm. From placement in a mass versus size diagram, we consider 303 to be candidate prestellar cores, and 178 of these to be "robust" prestellar cores. From an independent extraction of sources at 70 μm, we consider 25 of the 832 dense cores to be protostellar. The distribution of background column densities coincident with candidate prestellar cores peaks at (2─4) × 10<SUP>21</SUP> cm<SUP>−2</SUP>. About half of the candidate prestellar cores in Cepheus may have formed as a result of the widespread fragmentation expected to occur within filaments of "transcritical" line mass. The lognormal robust prestellar core mass function (CMF) drawn from all five Cepheus clouds peaks at 0.56 M<SUB>☉</SUB> and has a width of ∼0.5 dex, similar to that of Aquila's CMF. Indeed, the width of Cepheus's aggregate CMF is similar to the stellar system initial mass function (IMF). The similarity of CMF widths in different clouds and the system IMF suggests a common, possibly turbulent origin for seeding the fluctuations that evolve into prestellar cores and stars. | URI: | http://hdl.handle.net/20.500.12386/31090 | URL: | https://iopscience.iop.org/article/10.3847/1538-4357/abc016 https://arxiv.org/pdf/2010.09894.pdf |
ISSN: | 0004-637X | DOI: | 10.3847/1538-4357/abc016 | Bibcode ADS: | 2020ApJ...904..172D | Fulltext: | open |
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