Bibcode
Sarzi, Marc; Falcón-Barroso, Jesús; Davies, Roger L.; Bacon, Roland; Bureau, Martin; Cappellari, Michele; de Zeeuw, P. Tim; Emsellem, Eric; Fathi, Kambiz; Krajnović, Davor; Kuntschner, Harald; McDermid, Richard M.; Peletier, Reynier F.
Referencia bibliográfica
Monthly Notices of the Royal Astronomical Society, Volume 366, Issue 4, pp. 1151-1200.
Fecha de publicación:
3
2006
Número de citas
738
Número de citas referidas
676
Descripción
We present the emission-line fluxes and kinematics of 48 representative
elliptical and lenticular galaxies obtained with our custom-built
integral-field spectrograph, SAURON, operating on the William Herschel
Telescope. Hβ, [OIII]λλ4959,5007 and
[NI]λλ5198,5200 emission lines were measured using a new
procedure that simultaneously fits both the stellar spectrum and the
emission lines. Using this technique we can detect emission lines down
to an equivalent width of 0.1 Å set by the current limitations in
describing galaxy spectra with synthetic and real stellar templates,
rather than by the quality of our spectra. Gas velocities and velocity
dispersions are typically accurate to within 14 and 20 km
s-1, respectively, and at worse to within 25 and 40 km
s-1. The errors on the flux of the [OIII] and Hβ lines
are on average 10 and 20 per cent, respectively, and never exceed 30 per
cent. Emission is clearly detected in 75 per cent of our sample
galaxies, and comes in a variety of resolved spatial distributions and
kinematic behaviours. A mild dependence on the Hubble type and galactic
environment is observed, with higher detection rates in lenticular
galaxies and field objects. More significant is the fact that only 55
per cent of the galaxies in the Virgo cluster exhibit clearly detected
emission. The ionized-gas kinematics is rarely consistent with simple
coplanar circular motions. However, the gas almost never displays
completely irregular kinematics, generally showing coherent motions with
smooth variations in angular momentum. In the majority of the cases, the
gas kinematics is decoupled from the stellar kinematics, and in half of
the objects this decoupling implies a recent acquisition of gaseous
material. Over the entire sample however, the distribution of the mean
misalignment values between stellar and gaseous angular momenta is
inconsistent with a purely external origin. The distribution of
kinematic misalignment values is found to be strongly dependent on the
apparent flattening and the level of rotational support of galaxies,
with flatter, fast rotating objects hosting preferentially corotating
gaseous and stellar systems. In a third of the cases, the distribution
and kinematics of the gas underscore the presence of non-axisymmetric
perturbations of the gravitational potential. Consistent with previous
studies, the presence of dust features is always accompanied by gas
emission while the converse is not always true. A considerable range of
values for the [OIII]/Hβ ratio is found both across the sample and
within single galaxies. Despite the limitations of this ratio as an
emission-line diagnostic, this finding suggests either that a variety of
mechanisms is responsible for the gas excitation in E and S0 galaxies or
that the metallicity of the interstellar material is quite
heterogeneous.