Evidence for Two Distinct Broad-Line Regions from Reverberation Mapping of PG 0026+129

Abstract

We report on the results of a new spectroscopic monitoring campaign of the quasar PG 0026+129 at the Calar Alto Observatory 2.2m telescope from July 2017 to February 2020. Significant variations in the fluxes of the continuum and broad-emission lines, including Hβ and He II, were observed in the first and third years, and clear time lags between them are measured. The broad Hβ line profile consists of two Gaussian components: an intermediate-width Hβ IC with a full width at half-maximum (FWHM) of 196418 km~s-1 and another very broad Hβ VBC with a FWHM of 757083 km~s-1. Hβ IC has long time lags of 40--60 days in the rest frame, while Hβ VBC shows nearly zero time delay with respect to the optical continuum at 5100 . The velocity-resolved delays show consistent results: lags of 30--50 days at the core of the broad Hβ line and roughly zero lags at the wings. Hβ IC has a redshift of 400 km~s-1 which seems to be stable for nearly 30 years by comparing with archived spectra, and may originate from an infall. The root mean square (rms) spectrum of Hβ VBC shows a double-peaked profile with brighter blue peak and extended red wing in the first year, which matches the signature of a thin disk. Both the double-peaked profile and the near-zero lag suggest that Hβ VBC comes from a region associated with the part of the accretion disc that emits the optical continuum. Adopting the FWHM (in the rms spectrum) and the time lag measured for the total Hβ line, and a virial factor of 1.5, we obtain a virial mass of 2.89-0.69+0.60 ×107 M for the central black hole in this quasar.