RESOLVE and ECO: Finding Low-Metallicity z0 Dwarf AGN Candidates Using Optimized Emission-Line Diagnostics

Abstract

Existing star-forming vs. active galactic nucleus (AGN) classification schemes using optical emission-line diagnostics mostly fail for low-metallicity and/or highly star-forming galaxies, missing AGN in typical z0 dwarfs. To recover AGN in dwarfs with strong emission lines (SELs), we present a classification scheme optimizing the use of existing optical diagnostics. We use SDSS emission-line catalogs overlapping the volume- and mass-limited RESOLVE and ECO surveys to determine the AGN percentage in SEL dwarfs. Our photoionization grids show that the [O III]/Hβ versus [S II]/Hα diagram (SII plot) and [O III]/Hβ versus [O I]/Hα diagram (OI plot) are less metallicity sensitive and more successful in identifying dwarf AGN than the popular [O III]/Hβ versus [N II]/Hα diagnostic (NII plot or "BPT diagram"). We identify a new category of "star-forming AGN" (SF-AGN) classified as star-forming by the NII plot but as AGN by the SII and/or OI plots. Including SF-AGN, we find the z0 AGN percentage in dwarfs with SELs to be 3-16\%, far exceeding most previous optical estimates (1\%). The large range in our dwarf AGN percentage reflects differences in spectral fitting methodologies between catalogs. The highly complete nature of RESOLVE and ECO allows us to normalize strong emission-line galaxy statistics to the full galaxy population, reducing the dwarf AGN percentage to 0.6-3.0\%. The newly identified SF-AGN are mostly gas-rich dwarfs with halo mass < 1011.5 M, where highly efficient cosmic gas accretion is expected. Almost all SF-AGN also have low metallicities (Z 0.4 Z), demonstrating the advantage of our method.