# The Structure of the Broad-Line Region In Active Galactic Nuclei. II.   Dynamical Modeling of Data from the AGN10 Reverberation Mapping Campaign

**Authors:** C. J. Grier, A. Pancoast, A. J. Barth, M. M. Fausnaugh, B. J. Brewer,, T. Treu, and B. M. Peterson

arXiv: 1705.02346 · 2017-11-15

## TL;DR

This study models the geometry and kinematics of the broad-line region in four active galactic nuclei, revealing thick disk structures with specific dynamics, and refines black hole mass and scale factor measurements through reverberation mapping data.

## Contribution

It provides detailed dynamical models of the broad-line region in multiple AGNs and introduces individual scale factors, expanding the sample size and diversity of modeled objects.

## Key findings

- Broad-line regions are thick disks close to face-on orientation.
- Black hole masses range from log(M_BH)=6.92 to 7.86.
- Average scale factor f is log10(f)=0.54, correlating with black hole mass.

## Abstract

We present inferences on the geometry and kinematics of the broad-Hbeta line-emitting region in four active galactic nuclei monitored as a part of the fall 2010 reverberation mapping campaign at MDM Observatory led by the Ohio State University. From modeling the continuum variability and response in emission-line profile changes as a function of time, we infer the geometry of the Hbeta- emitting broad line regions to be thick disks that are close to face-on to the observer with kinematics that are well-described by either elliptical orbits or inflowing gas. We measure the black hole mass to be log (MBH) = 7.25 (+/-0.10) for Mrk 335, 7.86 (+0.20, -0.17) for Mrk 1501, 7.84 (+0.14, -0.19) for 3C 120, and 6.92 (+0.24, -0.23) for PG 2130+099. These black hole mass measurements are not based on a particular assumed value of the virial scale factor f, allowing us to compute individual f factors for each target. Our results nearly double the number of targets that have been modeled in this manner, and investigate the properties of a more diverse sample by including previously modeled objects. We measure an average scale factor f in the entire sample to be log10(f) = 0.54 +/- 0.17 when the line dispersion is used to characterize the line width, which is consistent with values derived using the normalization of the MBH-sigma relation. We find that the scale factor f for individual targets is likely correlated with the black hole mass, inclination angle, and opening angle of the broad line region but we do not find any correlation with the luminosity.

## Full text

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## Figures

19 figures with captions in the complete paper: https://tomesphere.com/paper/1705.02346/full.md

## References

71 references — full list in the complete paper: https://tomesphere.com/paper/1705.02346/full.md

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Source: https://tomesphere.com/paper/1705.02346