📝 SummarXiv

Abstract

The reverberation mapping (RM) is the most promising method to measure the mass of supermassive black hole in the center of active galaxy nuclei (AGNs). However, the dominant jet component hinders the application of RM method for blazars. In this work, we present a new algorithm to disentangle the contributions of the accretion disk and relativistic jet in blazars by analyzing the optical spectroscopic data. Applying this method to two flat-spectrum radio quasars, PKS 1510-089 and PKS 0736+017, we find that the H$\gamma$ variability in PKS 1510-089 lags behind the disk by approximately 116 days, while the H$\beta$ line exhibits a lag of about 52 days relative to the disk in PKS 0736+017. Based on these measured time lags, we estimate that the black hole masses are about $1.8 \times 10^8\ M_\odot$ for PKS 1510-089 and about $7.0 \times 10^7\ M_\odot$ for PKS 0736+017, respectively. This method paves the way to apply the RM method for blazars, and improves the understanding of disk and jet activities.