Iron K-line Analysis of Clusters of Galaxies with the Resonance Scattering Effect


Fumie Akimoto, A. Furuzawa, Y. Tawara and K. Yamashita

Abstract

The spectral analysis was carried out in the central core and outer envelope region of each of 50 galaxy clusters observed with ASCA. Among them, we investigated iron K-lines of 8 targets which have large iron line intensities. Iron K-lines of 8 targets among them. Iron K-lines were separately observed as He-like Ka, H-like Ka by SIS and their blend and Kb blended with nickel Ka lines by GIS. Their energies and intensities were derived from spectral fittings of continuum and Gaussian lines in the energy range of 3-10keV. The intensity ratio of He-like Ka to H-like Ka has the tendency to be smaller than that estimated from a thin hot plasma model. The intensity ratio of Ka to Kb has the same tendency as well, and seems to be increasing from the core to the envelope for some clusters. These discrepancies would be due to the reduction of Ka, especially He-like Ka intensity. The optical depth of He-like iron a is estimated to be around unity in the core, so that the line would be suppressed in the core and enhanced in the envelope by the resonance scattering effect. This observational evidence of the resonance scattering is critically important to determine the abundance and to investigate the origin of heavy elements in an intra-cluster medium (ICM).