Published in
American Astronomical Society, Astrophysical Journal, 2(797), p. 129, 2014
DOI: 10.1088/0004-637x/797/2/129
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Tools
Quantifying the heating sources for mid-infrared dust emissions in galaxies: the case of M 81
,
Gj J. Bendo,
A. Boselli,
Maarten Baes ,
H. Wu,
Sc C. Madden,
Ilse De Looze,
A. Rémy-Ruyer,
M. Boquien,
Cd D. Wilson,
M. Galametz,
Mi I. Lam,
A. Cooray,
L. Spinoglio
and other authors.
Full text: Download
Abstract
With the newly available photometric images at 250 and 500 mu m from the Herschel Space Observatory, we study quantitative correlations over a sub-kiloparsec scale among three distinct emission components in the interstellar medium of the nearby spiral galaxy M81 (NGC 3031): (1) I-8 or I-24, the surface brightness of the mid-infrared emission observed in the Spitzer Space Telescope 8 or 24 mu m band, with I-8 and I-24 being dominated by the emissions from polycyclic aromatic hydrocarbons (PAHs) and very small grains (VSGs) of dust, respectively; (2) I-500, that of the cold dust continuum emission in the Herschel Space Observatory 500 mu m band, dominated by the emission from large dust grains heated by evolved stars; and (3) I-H alpha, a nominal surface brightness of the H alpha line emission, from gas ionized by newly formed massive stars. The results from our correlation study, free from any assumption on or modeling of dust emissivity law or dust temperatures, present solid evidence for significant heating of PAHs and VSGs by evolved stars. In the case of M81, about 67% (48%) of the 8 mu m (24 mu m) emission derives its heating from evolved stars, with the remainder attributed to radiation heating associated with ionizing stars.