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Poshak Gandhi, Naoki Isobe, Mark Birkinshaw, Diana M. Worrall, Itsuki Sakon, Kazushi Iwasawa, Aya Bamba, Diffraction-Limited Subaru Imaging of M 82: Sharp Mid-Infrared View of the Starburst Core*, Publications of the Astronomical Society of Japan, Volume 63, Issue sp2, 25 March 2011, Pages S505–S521, https://doi.org/10.1093/pasj/63.sp2.S505
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Abstract
We present new imaging at 12.81 and 11.7 |$\mu$|m of the central |$\sim$| 40|$”$||$\times$| 30|$”$| (|$\sim$| 0.7 kpc |$\times$| 0.5 kpc) of the starburst galaxy M 82. The observations were carried out with the COMICS mid-infrared (mid-IR) imager on the 8.2 m Subaru Telescope, and are diffraction-limited at an angular resolution of |$\lt$|0|$″$|4. The images show extensive diffuse structures, including a 7-long linear chimneylike feature and another resembling the edges of a ruptured bubble. This is the clearest view to date of the base of the kpc-scale dusty wind known in this galaxy. These structures do not trace back to a single central point, implying multiple ejection sites for the dust. In general, the distribution of dust probed in the mid-IR anticorrelates with the locations of massive star clusters that appear in the near-infrared. The 10–21 |$\mu$|m mid-IR emission, spatially integrated over the field of view, may be represented by hot dust with temperature of |$\sim$| 160 K. Most discrete sources are found to have extended morphologies. Several radio H II regions are identified for the first time in the mid-IR. The only potential radio supernova remnant to have a mid-IR counterpart is a source which has previously also been suggested to be a weak active galactic nucleus. This source has an X-ray counterpart in Chandra data which appears prominently above 3 keV and is best described as a hot (|$\sim$| 2.6 keV) absorbed thermal plasma with a 6.7 keV Fe K emission line, in addition to a weaker and cooler thermal component. The mid-IR detection is consistent with the presence of strong [NeII]|$\lambda$|12.81 |$\mu$|m line emission. The broad-band source properties are complex, but the X-ray spectra do not support the active galactic nucleus hypothesis. We discuss possible interpretations regarding the nature of this source.
