Broad-band X-ray observation of broad-line radio galaxy 3C 109

Abstract

We present a study of the central engine in the broad-line radio galaxy 3C 109. To investigate the immediate surrounding of this accreting, supermassive black hole, we perform a multi-epoch broad-band spectral analysis of a joint NuSTAR/XMM observation (2017), an archival xmm observation (2005) and the 105-month averaged Swift-BAT data. We are able to clearly separate the spectrum into a primary continuum, neutral and ionized absorption, and a reflection component. The photon index of the primary continuum has changed since 2005 ( = 1.61 +0.02 \\ -0.01 → 1.54 0.02), while other components remain unchanged, indicative of minimal geometric changes to the central engine. We constrain the high-energy cutoff of 3C 109 (Ecut= 49 +7 \\ -5\,keV ) for the first time. The reflector is found to be ionized (log = 2.3 +0.1 \\ -0.2) but no relativistic blurring is required by the data. SED analysis confirms the super-Eddington nature of 3C 109 initially (λEdd > 2.09). However, we do not find any evidence for strong reflection (R = 0.18 +0.04 \\ -0.03) or a steep power law index, as expected from a super-Eddington source. This puts the existing virial mass estimate of 2 × 108M into question. We explore additional ways of estimating the Eddington ratio, some of which we find to be inconsistent with our initial SED estimate. We obtain a new black hole mass estimate of 9.3 × 108M, which brings all Eddington ratio estimates into agreement and does not require 3C 109 to be super-Eddington.