Abstract

Abstract We present results from XMM-Newton observations of the narrow-line Seyfert 1 galaxy PKS 0558$-$504. The 2-12keV X-ray spectra can be well-reproduced by a single power law with a photon index of $\sim$2.2. The extrapolation of this power law continuum into the lower energy band reveals the existence of a strong soft excess component. When we applied a multicolor disk blackbody (MCD) model to the soft excess component, we found that the observed disk temperature, $kT_{\rm in}$, is much higher than that predicted from a standard Shakura-Sunyaev accretion disk. Furthermore, when the luminosity of the soft excess component, $L_{\rm disk}$, exceeds about 5$\times$10$^{44}$ergs$^{-1}$, $kT_{\rm in}$ seems to decrease in spite of the increase of luminosity. This trend is inconsistent with the standard accretion disk. Therefore, these results strongly suggest that the standard accretion-disk picture is no longer appropriate in the nucleus of PKS 0558$-$504. From the estimated bolometric luminosity ($\sim$10$^{46}$ergs$^{-1}$) and the central mass (5$\times$10$^7M_\odot$) of the black hole, PKS 0558$-$504 may be shining at the super-Eddington luminosity. We discuss a possible origin of the soft excess component, and suggest that significant photon trapping in the disk could explain the observational results.

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