XMM-Newton spectrum of the radio-loud quasar 3C 215: Slim accretion disk or SMBH binary

Context. Radio-loud active galactic nuclei (RL AGN) exhibit very powerful jet emission in the radio band, while the radio-quiet (RQ) AGN do not. This RL-RQ dichotomy would imply a sharp difference existing among these two classes, however, modern theoretical models and observations suggest a common...

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Bibliographic Details
Published in:Astronomy and astrophysics (Berlin) 2021-09, Vol.653, p.A100
Main Authors: Mei, A., Tombesi, F.
Format: Article
Language:English
Subjects:
Accretion disks
Active galactic nuclei
Blurring
Emission
Photons
Power law
Quasars
Radio galaxies
Seyfert galaxies
Spectrum analysis
Supermassive black holes
Toruses
X ray spectra
XMM (spacecraft)
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Summary:Context. Radio-loud active galactic nuclei (RL AGN) exhibit very powerful jet emission in the radio band, while the radio-quiet (RQ) AGN do not. This RL-RQ dichotomy would imply a sharp difference existing among these two classes, however, modern theoretical models and observations suggest a common nuclear environment that is possibly characterized by different working regimes. Aims. We explore the geometrical structure and mutual interactions of the innermost components of the broad line radio galaxy 3C 215, with a particular focus on the accretion and ejection mechanisms involving the central supermassive black hole (SMBH). We compare these observational features with those of the RQ Seyfert 1 galaxies. Investigating their differences is aimed at improving our understanding of the jet launching mechanisms and devising an explanation for why this phenomenon is efficient only in a small fraction of all the AGNs. Methods. Using high-quality data from a ∼60 ks observation with XMM-Newton , we carried out a detailed X-ray spectral analysis of 3C 215 in the broad energy range of 0.5−10 keV. We modeled the spectrum with an absorbed double power-law model for the primary continuum, reprocessed by reflection from ionized and cold neutral material and modified by relativistic blurring. We also compared our results with those of earlier multi-wavelength observations. Results. We obtained a primary continuum photon index from the corona, namely, Γ 1  = 1.97 ± 0.06, along with evidence of a jet contribution, modeled as a power law with photon index of Γ 2  ≃ 1.29. The reflector, which is possibly attributed to the accretion disk and portions of the broad-line region (BLR), is ionized (log ξ = 2.31 −0.27 +0.37 erg s −1 cm) and relatively distant from the SMBH ( R in  > 38  R g ), where R g  =  GM BH / c 2 is the gravitational radius. The obscuring torus seems patchy, dust-poor, and inefficient, while the jet emission shows a twisted and knotted geometry. We propose three scenarios to describe the following characteristics: 1. An ADAF state in the inner disk; 2. A slim accretion disk; and 3. A sub-pc SMBH binary system (SMBHB). Conclusions. While the first scenario is not in agreement with the SMBH accretion regime, the slim disk scenario is consistent with the observational features of this radio galaxy, showing that 3C 215 is similar to non-jetted AGNs, accreting at a high rate. Nonetheless, the first two scenarios are unable to account for the particular shape of 3C
ISSN:0004-6361
1432-0746
DOI:10.1051/0004-6361/202140473