Astronomy and Astrophysics – Astrophysics
Scientific paper
2004-07-21
Astronomy and Astrophysics
Astrophysics
12 pages, 10 figures, accepted by MNRAS
Scientific paper
10.1111/j.1365-2966.2004.08251.x
We present the results of a 127 ks XMM-Newton observation of the broad-line radio galaxy 3C 120 performed simultaneously with RXTE. The time-averaged spectrum is Seyfert-like, with a reflection amplitude R ~ 0.5, and a neutral Fe K line with equivalent width ~53 eV. The line is slightly broadened with a FWHM$\approx 10^4$ km s$^{-1}$. This is consistent with arising from an accretion disc radius of $\ga 75$ $GM/c^2$ at an inclination angle of ~10 degrees, consistent with the limit of < 14 degree derived from the radio jets. At low energies the spectrum requires excess absorption above the Galactic value and a soft excess which is best fit with a bremsstrahlung model (kT=0.3-0.4 keV). The total luminosity in the bremsstrahlung component is just under half of the total hard X-ray luminosity. Weak O VII and O VIII edges are detected with high precision, suggesting the presence of a warm absorber component. A two-component ionized disc model, with a very highly ionized reflector presumably arising from very close to the black hole, is only a small improvement over a truncated disc model. The strength of the soft X-ray emission features produced by the distant neutral reflector are overpredicted in our solar abundance model, implying that the heavy metal abundance in 3C 120 is subsolar. The total count-rate declined by 20 per cent over the course of the long observation, while small-scale rapid variability was present at the level of a few percent. A possible increase in the Fe K line flux, significant at the 90 per cent level, was identified at ~80 ks in the observation. The total unabsorbed luminosity of 3C 120 implies that it is accreting close to its Eddington rate, consistent with a model of an ionized thick disc. A connection between accretion disc thickness and radio jet production is discussed.
Ballantyne David R.
Fabian Andrea C.
Iwasawa Kashuzi
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