The Composite Broad Band Spectrum of Cir X-1 at the Periastron: a Peculiar Z-source
Abstract
We report on the spectral analysis of the peculiar source Cir X-1 observed by the BeppoSAX satellite when the X-ray source was near the periastron. A flare lasting 6 × 103 s is present at the beginning of the observation. The luminosity during the persistent emission is 1 × 1038 erg s-1, while during the flare is 2 × 1038 erg s-1. We produced broad band (0.1-100 keV) energy spectra during the flare and the persistent emission. At low energies the continuum is well fitted by a model consisting of Comptonization of soft photons, with a temperature of 0.4 keV, by electrons at a temperature of 1 keV. Out of the flare a power-law component, with photon index 3, is dominant at energies higher than 10 keV. This component contributes to 4% of the total luminosity. During the flare its addition is not statistically significant. An absorption edge at 8.4 keV, with optical depth 1, corresponding to the K-edge of Fe XXIII-XXV, and an iron emission line at 6.7 keV are also present. The iron line energy is in agreement with the ionization level of the absorption edge. The hydrogen column deduced from the absorption edge is 1024 cm-2, two order of magnitude larger than the absorption measured in this source. We calculated the radius of the region originating the comptonized seed photons, RW 150 km. We propose a scenario where RW is the inner disk radius, a highly ionized torus surrounds the accretion disk and a magnetosphere is large up to RW. The absorption edge and the emission line could originate in the photoionized torus, while the comptonized component originates in an inner region of the disk.
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