120 research outputs found
Variability-selected low luminosity AGNs in the SA57 and in the CDFS
Low Luminosity Active Galactic Nuclei (LLAGNs) are contaminated by the light
of their host galaxies, thus they cannot be detected by the usual colour
techniques. For this reason their evolution in cosmic time is poorly known.
Variability is a property shared by virtually all active galactic nuclei, and
it was adopted as a criterion to select them using multi epoch surveys. Here we
report on two variability surveys in different sky areas, the Selected Area 57
and the Chandra Deep Field South.Comment: to appear in the proceedings of "The Starburst-AGN Connection
Conference", Shanghai, China, 27 Oct - 1 Nov 2008, ASP Conference Serie
Variability and the X-ray/UV ratio of Active Galactic Nuclei
The observed relation between the X-ray radiation from AGNs, originating in
the corona, and the optical/UV radiation from the disk is usually described by
the anticorrelation between the UV to X-ray slope alpha_ox and the UV
luminosity. Many factors can affect this relation, including: enhanced X-ray
emission associated with the jets of radio-loud AGNs; X-ray absorption
associated with the UV Broad Absorption Line (BAL) outflows; other X-ray
absorption not associated with BALs; intrinsic X-ray weakness; UV and X-ray
variability, and non-simultaneity of UV and X-ray observations. The separation
of these effects provides information about the intrinsic alpha_ox-L_UV
relation and its dispersion, constraining models of disk-corona coupling. We
extract simultaneous data from the second XMM-Newton serendipitous source
catalogue and the XMM-Newton Optical Monitor Serendipitous UV Source Survey
Catalog, and derive the single-epoch alpha_ox indices. We use ensemble
structure functions to analyse multi-epoch data. We confirm the anticorrelation
of alpha_ox with L_UV, and do not find any evidence of a dependence of alpha_ox
on z. The dispersion in our simultaneous data (0.12) is not significantly
smaller than in previous non-simultaneous studies, suggesting that "artificial
alpha_ox variability" introduced by non-simultaneity is not the main cause of
dispersion. "Intrinsic alpha_ox variability", i.e., the true variability of the
X-ray to optical ratio, is instead important, and accounts for ~30% of the
total variance, or more. "Inter-source dispersion", due to intrinsic
differences in the average alpha_ox values from source to source, is also
important. The dispersion introduced by variability is mostly caused by the
long timescale variations, which are expected to be driven by the optical
variations.Comment: 16 pages, 10 figures, 1 table. Final version equal to the published
on
An X-ray and Optical Study of Matter Distribution in the Galaxy Cluster A 2319
A new analysis of velocity distribution, optical photometry and X-ray surface
brightness from ROSAT PSPC data of the galaxy cluster A 2319 is presented. The
temperature profile derived from ASCA data (Markevitch et al.,1996) is taken
into account. A method to check the hydrostatic model in the presence of a
temperature gradient is proposed. Consistency of the hydrostatic isothermal
model and the explanation of the "beta-discrepancy" are discussed. Galaxy and
gas density profiles of the main component A 2319A are derived, allowing for
the effect of the secondary component A 2319B. The inadequacy of a polytropic
model, which would produce a binding mass decrease with respect to the
isothermal beta-model, is discussed. A simple interpolation of the temperature
profile provides instead an increase of the binding mass and a lower baryon
fraction thus mitigating the "baryon catastrophe". Assuming as typical the
value f_b ~ 0.2, a comparison with the most recent estimate of Omega_b(nucl)
implies for the cosmological parameter Omega_o less than 0.4.Comment: 7 pages, 2 tables, 8 figure
Spectroscopic follow-up of variability-selected active galactic nuclei in the Chandra Deep Field South
Luminous AGNs are usually selected by their non-stellar colours or their
X-ray emission. Colour selection cannot be used to select low-luminosity AGNs,
since their emission is dominated by the host galaxy. Objects with low X-ray to
optical ratio escape even the deepest X-ray surveys performed so far. In a
previous study we presented a sample of candidates selected through optical
variability in the Chandra Deep Field South, where repeated optical
observations were performed for the STRESS supernova survey. We obtained new
optical spectroscopy for a sample of variability selected candidates with the
ESO NTT telescope. We analysed the new spectra, together with those existing in
the literature and studied the distribution of the objects in U-B and B-V
colours, optical and X-ray luminosity, and variability amplitude. A large
fraction (17/27) of the observed candidates are broad-line luminous AGNs,
confirming the efficiency of variability in detecting quasars. We detect: i)
extended objects which would have escaped the colour selection and ii) objects
of very low X-ray to optical ratio. Several objects resulted to be
narrow-emission line galaxies where variability indicates nuclear activity,
while no emission lines were detected in others. Some of these galaxies have
variability and X-ray to optical ratio close to active galactic nuclei, while
others have much lower variability and X-ray to optical ratio. This result can
be explained by the dilution of the nuclear light due to the host galaxy. Our
results demonstrate the effectiveness of supernova search programmes to detect
large samples of low-luminosity AGNs. A sizable fraction of the AGN in our
variability sample had escaped X-ray detection (5/47) and/or colour selection
(9/48). Spectroscopic follow-up to fainter flux limits is strongly encouraged.Comment: 14 pages, 11 figures, to appear in A&
Selecting AGN through variability in SN datasets
Variability is a main property of active galactic nuclei (AGN) and it was
adopted as a selection criterion using multi epoch surveys conducted for the
detection of supernovae (SNe). We have used two SN datasets. First we selected
the AXAF field of the STRESS project, centered in the Chandra Deep Field South
where, besides the deep X-ray surveys also various optical catalogs exist. Our
method yielded 132 variable AGN candidates. We then extended our method
including the dataset of the ESSENCE project that has been active for 6 years,
producing high quality light curves in the R and I bands. We obtained a sample
of ~4800 variable sources, down to R=22, in the whole 12 deg^2 ESSENCE field.
Among them, a subsample of ~500 high priority AGN candidates was created using
as secondary criterion the shape of the structure function. In a pilot
spectroscopic run we have confirmed the AGN nature for nearly all of our
candidates.Comment: 6 pages, 3 figures, contributed talk, proceedings of the 9th Hellenic
Astronomical Society Conference, Athens, 20-24 September 200
A multi-epoch spectroscopic study of the BAL quasar APM 08279+5255: I. C IV absorption variability
Broad Absorption Lines indicate gas outflows with velocities from thousands
km/s to about 0.2 the speed of light, which may be present in all quasars and
may play a major role in the evolution of the host galaxy. The variability of
absorption patterns can provide informations on changes of the density and
velocity distributions of the absorbing gas and its ionization status. We
collected 23 photometrical and spectro-photometrical observations at the 1.82m
Telescope of the Asiago Observatory since 2003, plus other 5 spectra from the
literature. We analysed the evolution in time of the equivalent width of the
broad absorption feature and two narrow absorption systems, the correlation
among them and with the R band magnitude. We performed a structure function
analysis of the equivalent width variations. We present an unprecedented
monitoring of a broad absorption line quasar based on 28 epochs in 14 years.
The shape of broad absorption feature shows a relative stability, while its
equivalent width slowly declines until it sharply increases during 2011. In the
same time the R magnitude stays almost constant until it sharply increases
during 2011. The equivalent width of the narrow absorption redwards of the
systemic redshift only shows a decline. The broad absorption behaviour suggests
changes of the ionisation status as the main cause of variability. We show for
the first time a correlation of this variability with the R band flux. The
different behaviour of the narrow absorption system might be due to
recombination time delay. The structure function of the absorption variability
has a slope comparable with typical optical variability of quasars. This is
consistent with variations of the 200 A ionising flux originating in the inner
part of the accretion disk.Comment: 10 pages, 8 figures, to appear on Astronomy & Astrophysic
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