The case for inflow of the broad-line region of active galactic nuclei

TL;DR

This paper challenges the traditional disc-wind model for the broad-line region in active galactic nuclei, proposing instead that inflow and scattering better explain observed blueshifts and line profiles.

Contribution

It introduces a scattering-plus-inflow model for the BLR that accounts for blueshifts and line profiles, addressing issues with the disc-wind hypothesis.

Findings

Reverberation mapping results support inflow and scattering over outflow models.

The anti-correlation between Hβ redshift and CIV blueshift is explained by contamination effects.

The disc-wind model cannot reproduce certain line profile features.

Abstract

The high-ionization lines of the broad-line region (BLR) of thermal active galactic nuclei (AGNs) show blueshifts of a few hundred km/s to several thousand km/sec with respect to the low-ionization lines. This has long been thought to be due to the high-ionization lines of the BLR arising in a wind of which the far side of the outflow is blocked from our view by the accretion disc. Evidence for and against the disc-wind model is discussed. The biggest problem for the model is that velocity-resolved reverberation mapping repeatedly fails to show the expected kinematic signature of outflow of the BLR. The disc-wind model also cannot readily reproduce the red side of the line profiles of high-ionization lines. The rapidly falling density in an outflow makes it difficult to obtain high equivalent widths. We point out a number of major problems with associating the BLR with the outflows producing broad absorption lines. An explanation which avoids all these problems and satisfies the constraints of both the line profiles and velocity-resolved reverberation-mapping is a model in which the blueshifting is due to scattering off material spiraling inwards with an inflow velocity of half the velocity of the blueshifting. We discuss how recent reverberation mapping results are consistent with the scattering-plus-inflow model but do not support a disc-wind model. We propose that the anti-correlation of the apparent redshifting of H$\beta$ with the blueshifting of CIV is a consequence of contamination of the red wings of H$\beta$ by the broad wings of [O III].