Supermassive Black Hole and Broad-line Region in NGC 5548: 2023 Reverberation Mapping Results

Abstract

We present the results of the 2023 spectroscopic reverberation mapping (RM) campaign for active galactic nuclei (AGN) of NGC 5548, continuing our long-term monitoring program. Using the Lijiang 2.4-meter telescope, we obtained 74 spectra with a median cadence of 1.9 days. Through detailed spectral decomposition, we measured the light curves of the optical continuum at 5100~\ and the broad He~ ii, He~ i, Hγ, and Hβ emission lines. The time lags of these lines relative to the continuum are measured as 1.3+1.6-0.6, 2.3+1.5-2.1, 10.0+2.0-1.8, and 15.6+2.6-2.9 days (rest-frame), respectively. Velocity-resolved lag profiles for Hγ and Hβ were constructed. Combined with data from previous seasons (2015-2021), we find that the radial ionization stratification of the broad-line region (BLR) is stable; the average virial mass of the supermassive black hole in NGC~5548 is (2.61.1)× 108M, consistent with the M BH-σ* relation; the broad He~ ii line exhibits the largest responsivity, followed by broad He~ i (or Hγ) and Hβ lines; the BLR kinematics show significant temporal evolution, transitioning from virialized motions to signatures of inflow and outflow. Furthermore, an analysis of 35 years of historical data confirms a 3.5-year time lag between variations in the optical luminosity and the BLR radius, potentially implicating the role of radiation pressure or dynamical structure changes in the inner accretion disk. Long-term campaign demonstrates that the BLR in NGC 5548 is a robust yet dynamically evolving entity, providing crucial insights into AGN structure and accretion physics.

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