Bibcode
Macchetto, F.; Pastoriza, M.; Caon, N.; Sparks, W. B.; Giavalisco, M.; Bender, R.; Capaccioli, M.
Bibliographical reference
Astronomy and Astrophysics Supplement, v.120, p.463-488
Advertised on:
12
1996
Citations
193
Refereed citations
172
Description
We present results of a CCD optical imaging survey of the ionized gas in
73 luminous elliptical and lenticular galaxies, selected from the RC3
catalog to represent a broad variety of X-ray, radio, infrared and
kinematical properties. For each galaxy we have used broad-band R images
and narrow-band images centered at the Hα and [NII] emission lines
to derive the luminosity and distribution of the ionized gas. We found
that a large fraction of E (72%) and S0 (85%) galaxies in our sample
contain ionized gas. The gas morphology appears to be rather smooth for
most galaxies; however ~12% of the sample galaxies show a very extended
filamentary structure. According to the morphology and size of the gas
distribution, the galaxies have been classified into three broad groups,
named small disk (SD), regular extended (RE) and filamentary structure
(F). The mean diameter of the emitting region ranges between 1 and
10kpc; the derived mass of the ionized gas ranges between 10^3^ and
10^5^ solar masses. A significant correlation between Hα+[NII] and
X-ray luminosities is found for those galaxies (27% of the sample) for
which we have detected ionized gas and are also listed as X-ray sources.
However, there are relatively strong X-ray emitting galaxies for which
we have not detected Hα+[NII] emission and objects which show
emission-lines but are not listed either in the EINSTEIN or in the ROSAT
databases. The distribution of datapoint and upper limits in this
diagram suggests that galaxies with warm gas are also X-ray emitters,
while there are X-ray emitters without measurable Hα+[NII]
emission. Similar characteristics are present in the correlation between
the infrared luminosity in the 12 μm band and L_Hα+[NII]_;
correlations with other infrared wavelengths are weaker. A strong
correlation was also found between the Hα+[NII] luminosity and the
luminosity in the B band inside the region occupied by the line-emitting
gas. We use these correlations to discuss the possible mechanisms
responsible for the gas ionization and excitation, analyzing in
particular the role of the post-AGB stars and the thermal conduction
from the X-ray halo in providing the necessary source of ionization.