Bibcode
Müller-Sánchez, F.; González-Martín, O.; Fernández-Ontiveros, J. A.; Acosta-Pulido, J. A.; Prieto, M. A.
Bibliographical reference
The Astrophysical Journal, Volume 716, Issue 2, pp. 1166-1177 (2010).
Advertised on:
6
2010
Journal
Citations
61
Refereed citations
57
Description
We present the first sub-arcsecond resolution two-dimensional stellar
kinematics and X-ray observations of the prototypical starburst galaxy
NGC 253 which define the position and nature of the galactic nucleus.
These observations comprise some of the best probes of the central 300
pc of NGC 253, the nearest massive galaxy undergoing a powerful
starburst, and will allow us to gain more insight into the nature of the
centers of starburst galaxies. We get an estimate of the stellar
kinematic center location corresponding to an area of r ~ 1farcs2
centered ~0farcs7 southwest (SW) from the radio core, and historically
presumed nucleus, TH2. Newly processed Chandra data reveal a central
point-like hard X-ray source (X-1) lying ~0farcs4 SW from the kinematic
center. Very accurate alignment between radio, infrared, and X-ray
sources in the nuclear region shows that TH2, the IR photometric center,
and X-1 are not associated with each other. As the kinematic center is
consistent with the positions of TH2 and X-1, and both could be a
manifestation of nuclear activity, we consider the two as possible
galactic nucleus candidates. Although TH2 is the strongest compact radio
source in the nuclear region, it does not have any infrared, optical, or
X-ray counterparts. If the kinematic center is associated with this
source, by analogy we suggest that the nucleus of NGC 253 resembles our
Galactic center Sgr A*. On the other hand, X-1 is a heavily absorbed
object (NH = 7.5 × 1023 cm-2)
only detected at energies >2 keV (L 2-10 keV ~
1040 erg s-1). If X-1 is instead associated with
the kinematic center, the nucleus of NGC 253 is compatible with an
obscured low-luminosity active galactic nucleus (AGN) or a spatially
resolved super star cluster (SSC) brightening up in X-rays most probably
due to young supernovae or supernova remnants, a situation also observed
in the nuclear starburst of M82. If no SSC is associated with the
kinematic center, we conclude that NGC 253 is a galaxy in which a strong
starburst and a weak AGN (either TH2 or X-1) coexist. Results from few
other high-resolution studies of nearby starburst galaxies (e.g., M82,
NGC 5253, NGC 4945) indicate that the AGN in these systems, if present,
is always in the low-luminosity regime. This may indicate that the onset
of nuclear activity in galaxies is closely related with the occurrence
of star formation, and that we are witnessing the emergence or
disappearance of an AGN.
Based on observations at the European Southern Observatory VLT
(075.A-0250).
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