Reverberation in the Narrow Fe Kα Line in the Seyfert Galaxy NGC 4151 with XRISM

Abstract

Emission lines that "echo" variations in the ionizing flux produced close to black holes are powerful probes of the central engine. In the Seyfert-1.5 galaxy NGC 4151, high-resolution X-ray spectra and time lags in low-resolution X-ray data suggest that part of the narrow Fe Kα line originates close to the optical broad line region (BLR). We report on a sequence of nine XRISM observations of NGC 4151, obtained every other day in 2024. Swift monitoring was undertaken to sample the driving flux before, during, and after the XRISM sequence. Using suitable line kernels, we measure a mean BLR component width of σ= 5.36 0.48× 103~ km~ s-1. Modeling the Swift continuum and XRISM line flux trends gives a lag of τ= 3.5+2.8-1.7 days (r=3.6+3.0-1.7× 103~GM/c2 for MBH = 1.7× 107~M), significant at the 2σ level via Monte Carlo simulations, and consistent with prior measurements and direct spectral fits. This lag implies a black hole mass of MBH/fX = 2.0+1.4-1.0× 107 M, where fX is a geometrical factor. A standard optical value for this factor gives a mass that is nominally higher than typical Hβ mass estimates, but formally consistent. Our results suggest that XRISM can measure lags and black hole masses in both unobscured and obscured AGN.