Friday, April 12, 2013

1304.3128 (K. Foyle et al.)

Star Formation & Dust Heating in the FIR Bright Sources of M83    [PDF]

K. Foyle, G. Natale, C. D. Wilson, C. C. Popescu, M. Baes, G. J. Bendo, M. Boquien, A. Boselli, A. Cooray, D. Cormier, I. De Looze, J. Fischera, O. Ł. Karczewski, V. Lebouteiller, S. Madden, M. Pereira-Santaella, M. W. L. Smith, L. Spinoglio, R. J. Tuffs
We investigate star formation and dust heating in the compact FIR bright sources detected in the Herschel maps of M83. We use the source extraction code GETSOURCES to detect and extract sources in the FIR, as well as their photometry in the MIR and H{\alpha}. By performing infrared SED fitting and applying an H{\alpha} based star formation rate (SFR) calibration, we derive the dust masses and temperatures, SFRs, gas masses and star formation efficiencies (SFEs). The detected sources lie exclusively on the spiral arms and represent giant molecular associations (GMAs), with gas masses and sizes of 10^6-10^8 solar masses and 200-300 pc, respectively. The inferred parameters show little to no radial dependence and there is only a weak correlation between the SFRs and gas masses, which suggests that more massive clouds are less efficient at forming stars. Dust heating is mainly due to local star formation. However, although the sources are not optically thick, the total intrinsic young stellar population luminosity can almost completely account for the dust luminosity. This suggests that other radiation sources contribute to the dust heating as well and approximately compensate for the unabsorbed fraction of UV light.
View original: http://arxiv.org/abs/1304.3128

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