J. Fritz, G. Gentile, M. W. L. Smith, W. K. Gear, J. Roman Duval, M. Baes, S. A. Eales, J. Verstappen, G. J. Bendo, M. Boquien, A. Boselli, R. Braun, D. Clements, A. R. Cooray, L. Cortese, I. De Looze, G. Ford, F. Galliano, H. L. Gomez, K. D. Gordon, B. O'Halloran, J. Kirk, S. C. Madden, M. J. Page, A. Remy, H. Roussel, L. Spinoglio, D. Thilker, C. D. Wilson, M. Vaccari, J. A. D. L. Blommaert, C. Waelkens
We have obtained Herschel images at five wavelengths from 100 to 500 micron
of a ~5.5x2.5 degree area centred on the local galaxy M31 (Andromeda), our
nearest neighbour spiral galaxy, as part of the Herschel guaranteed time
project 'HELGA'. The main goals of HELGA are to study the characteristics of
the extended dust emission, focusing on larger scales than studied in previous
observations of Andromeda at an increased spatial resolution, and the obscured
star formation. In this paper we present the data reduction and provide a
description of the far-infrared morphology, comparing it with features seen at
other wavelengths. We use high-resolution maps of the atomic hydrogen, fully
covering our fields, to identify dust emission features that genuinely belong
to M31, distinguishing them from emission coming from the foreground Galactic
cirrus. Thanks to the very large extension of our maps we detect, for the first
time at far-infrared wavelengths, three ring-shaped structures extending out to
~21, ~26 and ~31 kpc respectively, in the south-western part of M31, with the
innermost structure also having a counterpart at the opposite side. The
presence of these features is safely confirmed by their detection in HI maps.
Due to an unfortunate coincidence of M31's systemic velocity with the rotation
speed in its outermost parts, together with the presence of a bright emission
from the Galactic cirrus heavily contaminating the north-eastern side, the
detection of the other fainter features on this side of the galaxy is more
uncertain. We find that the dust in M31 significantly extends beyond the
previously mapped far-infrared emission. An annular-like segment, extending
beyond the already known 15-kpc ring, is clearly detected on both sides of the
galaxy, and similar annular structures are undoubtedly detected on the
south-west side as well.
View original:
http://arxiv.org/abs/1112.3348
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