Complex Nuclear Structure in Seyfert 2 Galaxy NGC 4388 Revealed by XRISM Observation

Abstract

We report results from the simultaneous XRISM (183 ks) and NuSTAR (62 ks) observations of the Seyfert-2 galaxy NGC 4388. This AGN has the brightest Fe Kα line among Compton-thin, obscured sources. To model the reflection continuum and fluorescent lines, we employ an updated version of XCLUMPY and a broad line region model with a disk-like geometry. The profile of the neutral Fe-K fluorescent line is well described as the sum of three components convolved with Gaussians with FWHM values of 290\ km\ s-1, 1470\ km\ s-1, and 11100\ km\ s-1. These line widths correspond to radii of 1.5 pc, 0.060 pc, and 1.0×10-3 pc by assuming Keplerian motion, which we interpret as the dusty torus, its inner edge region, and the BLR, respectively. The data suggest that the Fe Kα BLR component is larger than that of Hα (FWHM of 4500 km\ s-1) in the polarized optical spectrum, implying that the velocity field of the BLR is dominated by that parallel to the equatorial plane. In addition, Fe XXVI Lyα and Fe XXV absorption lines are detected, characterized by 3.50~erg\ cm\ s-1, NH 22.1~cm-2, vout 40\ km\ s-1, and σv 160\ km\ s-1. We infer that the absorber is gravitationally bound and is possibly associated with a failed wind, consistent with a radiation-driven fountain flow.