Abstract
The X-ray spectra of Active Galactic Nuclei (AGN) carry the signatures of the emission from the central region, close to the Super Massive Black Hole (SMBH). For this reason, the study of deep X-ray spectra is a powerful instrument to investigate the origin of their emission. The emission line most often observed in the X-ray spectra of AGN is Fe K. It is known that it can be broadened and deformed by relativistic effects if emitted close enough to the central SMBH. In recent statistical studies of the X-ray spectra of AGN samples, it is found that a narrow Fe line is ubiquitous, while whether the broad features are as common is still uncertain. We present here the results of an investigation on the characteristics of the Fe line in the average X-ray spectra of AGN in deep Chandra fields. The average spectrum of the AGN is computed using Chandra spectra with more than 200 net counts from the AEGIS, Chandra Deep Field North and Chandra Deep Field South surveys. The sample spans a broader range of X-ray luminosities than other samples studied with stacking methods up to z=3.5. We analyze the average spectra of this sample using our own averaging method, checking the results against extensive simulations. Subsamples defined in terms of column density of the local absorber, luminosity and z are also investigated. We found a very significant Fe line with a narrow profile in all our samples and in almost all the subsamples that we constructed. The equivalent width (EW) of the narrow line estimated in the average spectrum of the full sample is 74 eV. The broad line component is significantly detected in the subsample of AGN with L<1.43 1E44 cgs and z<0.76, with EW=108 eV. We concluded that the narrow Fe line is an ubiquitous feature of the X-ray spectra of the AGN up to z=3.5.The broad line component is significant in the X-ray spectra of the AGN with low luminosity and low z.
Highlights
The X-ray spectra of active galactic nuclei (AGN) are emitted from the innermost regions of the central engine, close to the central super massive black hole (SMBH)
According to the currently accepted model described in detail by Shakura & Sunyaev (1974), AGN are powered by accretion to the SMBH, with large amounts of potential energy released in the accretion disk
We present in this paper a stacking analysis of a comprehensive sample of absorbed and unabsorbed AGN in the deepest Chandra surveys: AEGIS and Chandra deep fields
Summary
The X-ray spectra of active galactic nuclei (AGN) are emitted from the innermost regions of the central engine, close to the central super massive black hole (SMBH). According to the currently accepted model described in detail by Shakura & Sunyaev (1974), AGN are powered by accretion to the SMBH, with large amounts of potential energy released in the accretion disk. The most widely accepted interpretation for this phenomenon invokes a hot plasma surrounding the accretion disk that inverse-Compton-scatters of the thermal optical-UV photons originating in the accretion disc (Haardt et al 1991). Part of the primary emission is reflected by the accretion disc to produce Compton reflection (especially significant above 10 keV) and several fluorescence lines, the most important one being the Fe Kα line at 6.4 keV for neutral Fe (and 6.7−6.9 keV for Fe in the most highly ionized states), as described in Matt et al (1991) and George & Fabian (1991). The line profile gives valuable information about the emitting processes and the regions where they occur
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