BASS XXIX: The near-infrared view of the BLR: the effects of obscuration in BLR characterisation

Abstract

Virial black hole mass (MBH) determination directly involves knowing the broad line region (BLR) clouds velocity distribution, their distance from the central supermassive black hole (RBLR) and the virial factor (f). Understanding whether biases arise in MBH estimation with increasing obscuration is possible only by studying a large (N>100) statistical sample of obscuration unbiased (hard) X-ray selected active galactic nuclei (AGN) in the rest-frame near-infrared (0.8-2.5μm) since it penetrates deeper into the BLR than the optical. We present a detailed analysis of 65 local BAT-selected Seyfert galaxies observed with Magellan/FIRE. Adding these to the near-infrared BAT AGN spectroscopic survey (BASS) database, we study a total of 314 unique near-infrared spectra. While the FWHMs of Hα and near-infrared broad lines (Hei, Paβ, Paα) remain unbiased to either BLR extinction or X-ray obscuration, the Hα broad line luminosity is suppressed when NH1021 cm-2, systematically underestimating MBH by 0.23-0.46 dex. Near-infrared line luminosities should be preferred to Hα until NH<1022 cm-2, while at higher obscuration a less biased RBLR proxy should be adopted. We estimate f for Seyfert 1 and 2 using two obscuration-unbiased MBH measurements, i.e. the stellar velocity dispersion and a BH mass prescription based on near-infrared and X-ray, and find that the virial factors do not depend on redshift or obscuration, but for some broad lines show a mild anti-correlation with MBH. Our results show the critical impact obscuration can have on BLR characterization and the importance of the near-infrared and X-rays for a less biased view of the BLR.