Abstract
We present an XMM-Newton observation of the radio-quiet quasar Q0056-363 (z=0.162). This is the first time that this quasar is observed in the hard X-ray range (above 2 keV). We find that Q0056-363 is a powerful X-ray quasar, with a 0.3-12 keV unabsorbed luminosity of about 1.2 x 1045 erg s-1 with the largest part ( ~ 67%) emitted below 2 keV. The spectrum reveals a large featureless soft X-ray excess below 2 keV and a strong broad Fe Kalpha line at 6.4 keV (in the quasar frame). The Fe Kalpha line is due to low to moderate ionization states of iron (i.e., < Fe XVII) with an equivalent width of about 250 eV and a velocity width of about 25 000 km s-1. Q0056-363 is presently the most luminous AGN known to exhibit such a broad and intense Fe Kalpha line profile from near neutral iron. The line can be fitted with a relativistic profile from an accretion disc around either a Schwarzschild (non-rotating) or a Kerr (rotating) black hole. A combination of two thermal Comptonization components and a disc reflection model is favored to explain both the continuum over the energy range 0.3-12 keV and the Fe Kalpha line. A patchy corona covering a large part of the inner disc surface is needed in order to be compatible with the accretion rate inferred from the spectral energy distribution of Q0056-363, unless the mass of the black hole is much higher than about 5*E8 Msun.