The ASCA X-Ray Spectrum of Arp 102B and Evaluation of Simple Models for Its Associated, Metastable Fe II Absorber
Abstract
We have observed the broad-line radio galaxy Arp 102B with ASCA in order to determine the absorbing column density towards its X-ray source and measure its X-ray spectrum. The ultimate goal was to constrain the properties of the medium responsible for the metastable Fe II absorption lines observed in its UV spectrum. The 0.5-10 keV X-ray spectrum is described by a simple power-law model of photon index 1.58+/-0.04 modified by photoelectric absorption with an column density of (2.8+/-0.3)x1021 cm-2. An Fe K-alpha line is not detected with an upper limit to its equivalent width of 200 eV (assuming FWHM = 60,000 km/s. Using the above column density the observed S.E.D. as constraints, we explore simple photoionization models for the absorber for a wide range of densities and ionization parameters in an effort to reproduce the strengths of the UV absorption lines. We find that densities of at least 1x1011 cm-3 are needed. However, a single ionization parameter cannot explain all of the observed lines. An ionization parameter between 10-2.5 and 10-3.5 is needed for the Mg and Fe lines and the soft X-ray absorption, but lines from Si, C, Al, and H require different density-ionization parameter combinations. According to the models, such an absorbing medium must be located very close to the source of ionizing radiation (within 5,000 gravitational radii) and must be very compact. As such, the properties of this absorbing medium differ from those of more luminous quasars, but are reminiscent of the absorber in the Seyfert galaxy NGC 4151. We suggest that the absorber is in the form of thin sheets or filaments embedded in a wind wind that overlays the accretion disk of Arp 102B. This picture is consistent with all of the available constraints on the central engine of this object.
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