A new model for the Warm Absorber in NGC 3783: a single medium in total pressure equilibrium

Astronomy and Astrophysics – Astrophysics

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Accepted for publication in Astronomy & Astrophysics Letters

Scientific paper

10.1051/0004-6361:20064849

(Abridged) Many active galactic nuclei exhibit X-ray features typical of the highly ionized gas called "Warm Absorber" (WA). Such a material appears to be stratified, displaying zones of different density, temperature, and ionization. In this paper, we investigate the possibility of modelling the WA gas in NGC 3783 as a single medium in total pressure equilibrium, in contrast to the current descriptions that are based on the presence of multiple regions, each in constant density. The assumption of total pressure equilibrium yields a more physical description of the WA, resulting in the natural stratification of the ionized gas, and providing an explanation for the presence of lines from different ionization states, as observed in WA spectra. We have used the photoionization code TITAN to compute a grid of constant total pressure models with the purpose of fitting the WA in NGC 3783. We have compared our models to the 900 ks Chandra spectrum of NGC 3783 and to previous studies where the WA was described by multiple zones of constant density. Our results show that the WA features in NGC 3783 can be well reproduced by a clumpy, ionized gas with cosmic abondances, ionization parameter = 2500 erg cm s^-1, column density = 4 10^22 cm^-2, and constant total pressure. We have shown that the WA in NGC3783 can be modelled by a single medium in total pressure equilibrium; this is probably the case for other WAs currently described by multi-zone, constant density models.

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