BASS XXIV: The BASS DR2 Spectroscopic Line Measurements and AGN Demographics

TL;DR

This paper provides a comprehensive catalog of optical spectral line measurements and AGN demographics from the BAT AGN Spectroscopic Survey, revealing insights into AGN classifications, obscuration, and spectral properties of X-ray detected AGNs.

Contribution

It introduces the second data release with new spectral measurements and detailed analysis of AGN types, obscuration, and spectral features, enhancing understanding of hard X-ray selected AGNs.

Findings

High correspondence between optical line widths and X-ray column densities.

A significant fraction of AGNs are classified as Seyferts based on emission-line diagnostics.

Obscured AGNs are more effectively detected in hard X-ray surveys.

Abstract

We present the second catalog and data release of optical spectral line measurements and AGN demographics of the BAT AGN Spectroscopic Survey, which focuses on the of Swift-BAT hard X-ray detected AGNs. We use spectra from dedicated campaigns and publicly available archives to investigate spectral properties of most of the AGNs listed in the 70-month Swift-BAT all-sky catalog; specifically, 743 of the 746 unbeamed and unlensed AGNs (99.6%). We find a good correspondence between the optical emission line widths and the hydrogen column density distributions using the X-ray spectra, with a clear dichotomy of AGN types for NH = 10^22 cm-2. Based on optical emission-line diagnostics, we show that 48%-75% of BAT AGNs are classified as Seyfert, depending on the choice of emission lines used in the diagnostics. The fraction of objects with upper limits on line emission varies from 6% to 20%. Roughly 4% of the BAT AGNs have lines too weak to be placed on the most commonly used diagnostic diagram, [O III]{\lambda}5007/H\b{eta} versus [N II]{\lambda}6584/H{\alpha}, despite the high signal-to-noise ratio (S/N) of their spectra. This value increases to 35% in the [O III]{\lambda}5007/[O II]{\lambda}3727 diagram, owing to difficulties in line detection. Compared to optically-selected narrow-line AGNs in the Sloan Digital Sky Survey, the BAT narrow-line AGNs have a higher rate of reddening/extinction, with H{\alpha}/H\b{eta} > 5 (~ 36%), indicating that hard X-ray selection more effectively detects obscured AGNs from the underlying AGN population. Finally, we present a subpopulation of AGNs that feature complex broad-lines (34%, 250/743) or double-peaked narrow emission lines (2%, 17/743).