Supermassive Black Holes with High Accretion Rates in Active Galactic Nuclei. XIV. Long-Duration High-Cadence Reverberation Mapping Results for 11 PG Quasars

TL;DR

This study presents long-term, high-cadence reverberation mapping of 11 PG quasars, measuring Hβ time lags and black hole masses, enhancing understanding of quasar central regions and black hole growth.

Contribution

It provides new Hβ lag measurements for 8 quasars and expands the sample of quasars with reliable reverberation mapping data, improving black hole mass estimates.

Findings

Hβ time lags range from 20 to 150 days

Black hole masses estimated between 3×10^7 and 3×10^8 solar masses

Lag-luminosity relation slope approximately 0.53

Abstract

We report the results of a long-duration high-cadence reverberation mapping campaign of a second batch of 11 PG quasars using the 2.2m telescope at the Calar Alto Observatory. This follows a similar earlier study of another sample of 15 objects reported by Hu et al. (2021). Among the 11 PG quasars, 8 objects have the H$\beta$ time lags measured for the first time, while the other 3 objects were observed in previous campaigns, but only had highly uncertain H$\beta$-lag measurements. Long-term light curves are presented of photometric $V$-band, spectroscopic 5100 \r{A} continuum, and the H$\beta$ emission line, lasting for $\sim$3--6 years with a cadence of $\sim$6--14 days. Accurate H$\beta$ time lags ranging from $\sim$20 to 150 days in the rest frame are obtained. The estimated virial masses of the central supermassive black holes range from $\sim$(3--300)$\times10^7 M_\odot$. Combining these results with those reported in Hu et al. (2021), we now have 26 PG quasars, with representative properties, having reliable H$\beta$ time-lag measurements from our long-duration high-cadence campaign. A tentative fit to the relation between the H$\beta$ time lag and the continuum luminosity for these 26 objects gives a slope of 0.53.