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Zenodo, 2016

DOI: 10.5281/zenodo.163789

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Discovery Of Transient Iron Fluorescence In The Bare Seyfert Ark 120

Journal article published in 2016 by Emanuele Nardini, D. Porquet ORCID, J. Reeves, V. Braito, A. Lobban, G. Matt
This paper is made freely available by the publisher.
This paper is made freely available by the publisher.

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Abstract

We present the results from an X-ray observational campaign on the bare Seyfert galaxy Ark 120 jointly carried out with XMM- Newton, Chandra, and NuSTAR. The favourable line of sight to this source, devoid of any significant absorbing material, provides an incomparably clean view to the nuclear regions of an AGN, down to the the immediate surroundings of the radiatively efficient, accreting supermassive black hole. Here we focus on the nature, properties, and variability of the emission-line complex due to iron fluorescence detected in the 6-7 keV band. The narrow K-alpha feature from neutral iron at 6.4 keV is resolved by Chandra/HETG to a width of 5000 km/s, consistent with origin from the optical broad-line region. However, excess components are seen on both sides of this core. The excess emission map computed over the 7.5 days of XMM-Newton monitoring and the following, time-resolved spectral analysis show that both the red and blue features are highly variable on timescales of 10-15 hours. Any explanation (orbiting hotspots, coronal clumps, disc instabilities) requires a highly dynamic, inhomogeneous disc/coronal system. These observations thus prove the unique potential of a bare source like Ark 120 to better understand the physics of the accretion disc/X-ray corona system in AGN.

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