X-ray emission from the nuclear region of Arp 220

Abstract

We present an imaging and spectral analysis of the nuclear region of the ULIRG merger Arp 220, using deep Chandra-ACIS observations summing up to \( 300 ks\). Narrow-band imaging with sub-pixel resolution of the innermost nuclear region reveals two distinct Fe-K emitting sources, coincident with the infrared and radio nuclear clusters. These sources are separated by 1' (\( 380\) pc). The X-ray emission is extended and elongated in the eastern nucleus, like the disk emission observed in millimeter radio images, suggesting starburst dominance in this region. We estimate Fe-K equivalent width \( 1\) keV for both sources, and observed 2-10 keV luminosities \( 2×1040 erg s-1\) (W) and \( 3 × 1040 erg s-1\) (E). In the 6-7 keV band the emission from these regions is dominated by the 6.7 keV Fe xxv line, suggesting contribution from collisionally ionized gas. The thermal energy content of this gas is consistent with kinetic energy injection in the interstellar medium by Type II SNe. However, nuclear winds from hidden AGN (\( 2000 km s-1\)) cannot be excluded. The \(3σ\) upper limits on the neutral Fe-K\(α\) flux of the nuclear regions correspond to intrinsic AGN 2-10 keV luminosities \(< 1× 1042 erg s-1\) (W) and \(< 0.4× 1042 erg s-1\) (E). For typical AGN SEDs the bolometric luminosities are \(< 3× 1043 erg s-1\) (W) and \(< 8× 1043 erg s-1\) (E), and black hole masses \(<1×105 M\) (W) and \(< 5×105 M\) (E) for Eddington limited AGNs with a standard 10\% efficiency.