Bibcode
Comerón, S.; Knapen, J. H.; Beckman, J. E.; Laurikainen, E.; Salo, H.; Martínez-Valpuesta, I.; Buta, R. J.
Bibliographical reference
Monthly Notices of the Royal Astronomical Society, Volume 402, Issue 4, pp. 2462-2490.
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3
2010
Citations
180
Refereed citations
157
Description
We present the most complete atlas of nuclear rings to date. We include
113 rings found in 107 galaxies, six of which are elliptical galaxies,
five are highly inclined disc galaxies, 18 are unbarred disc galaxies
and 78 are barred disc galaxies. Star-forming nuclear rings occur in 20
+/- 2 per cent of disc galaxies with types between T = -3 and T = 7. We
aim to explore possible relationships between the size and morphology of
the rings and various galactic parameters. We also aim to establish
whether ultra-compact nuclear rings are a distinct population of nuclear
rings or if they are merely the low-end tail of the nuclear ring size
distribution. We produce colour index and structure maps, as well as
Hα and Paα continuum-subtracted images from Hubble Space
Telescope archival data. We derive ellipticity profiles from H-band
Two-Micron All-Sky Survey images in order to detect bars and find their
metric parameters. We measure the non-axisymmetric torque parameter,
Qg, and search for correlations between bar and ring metric
parameters, and Qg.
Our atlas of nuclear rings includes star-forming and dust rings. Nuclear
rings span a range from a few tens of parsecs to a few kiloparsecs in
radius. Star-forming nuclear rings can be found in a wide range of
morphological types, from S0 to Sd, with a peak in the distribution
between Sab and Sb and without strong preference for barred galaxies.
The ellipticities of rings found in disc galaxies range from
ɛr = 0 to ɛr = 0.4, assuming that
nuclear rings lie in the galactic plane. Dust nuclear rings are found in
elliptical and S0 galaxies. For barred galaxies, the maximum radius that
a nuclear ring can reach is a quarter of the bar radius. We found a
nearly random distribution of position angle offsets between nuclear
rings and bars. There is some evidence that nuclear ring ellipticity is
limited by bar ellipticity. We confirm that the maximum relative size of
a star-forming nuclear ring is inversely proportional to the
non-axisymmetric torque parameter, Qg (`stronger bars host
smaller rings') and that the origin of nuclear rings, even the ones in
non-barred hosts, is closely linked to the existence of dynamical
resonances. Ultra-compact nuclear rings constitute the low-radius
portion of the nuclear ring size distribution. We discuss implications
for the lifetimes of nuclear rings and for their origin and evolution.
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