Bibcode
Hernández-García, L.; González-Martín, O.; Márquez, I.; Masegosa, J.
Referencia bibliográfica
Astronomy and Astrophysics, Volume 556, id.A47, 31 pp.
Fecha de publicación:
8
2013
Revista
Número de citas
45
Número de citas referidas
41
Descripción
Context. One of the most distinctive features in active galactic nuclei
(AGN) is the variability of their emission. Variability has been
discovered at X-ray, UV, and radio frequencies on timescales from hours
to years. Among the AGN family and according to theoretical studies,
low-ionization nuclear emission line region (LINER) nuclei would be
objects variable on long timescales. Aims: Our purpose is to
investigate spectral X-ray variability in LINERs and to understand the
nature of these types of objects, as well as their accretion mechanism.
Methods: Chandra and XMM-Newton public archives were used to
compile X-ray spectra of seven LINER nuclei at different epochs with
timescales of years. To search for variability we fit all spectra from
the same object with a set of models to identify the parameters
responsible for the variability pattern. We also analyzed the light
curves to search for short timescale (from hours to days) variability.
Whenever possible, UV variability was also studied. Results: We
found spectral variability in four objects (NGC 1052, NGC 3226, NGC
4278, and NGC 4552), with variations mostly related to hard energies
(2-10 keV). These variations are generated by several possible changes
that act either alone or in combination: changes in the soft excess or
in the absorber. Added to this can be intrinsic variations of the
source, which may also be responsible by themselves for the spectral
variability. These variations occurred within years, the shortest
timescale being found for NGC 4278 (two months). Another two galaxies
(NGC 4261 and NGC 5846) apparently do not vary. No short timescale
variations during individual observations were found. Our analysis
confirms the previously reported anticorrelation between the X-ray
spectral index, Γ, and the Eddington ratio,
Lbol/LEdd, and also the correlation between the
X-ray to UV flux ratio, αox, and the Eddington ratio,
Lbol/LEdd. These results support an advection
dominated accretion flow as the accretion mechanism in LINERs.
Tables 2-11 and Appendices are available in electronic form at http://www.aanda.org
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