Multi-wavelength observations of SDSS J105621.45+313822.1, a broad-line, low-metallicity AGN

Abstract

In contrast to massive galaxies with Solar or super-Solar gas phase metallicities, very few Active Galactic Nuclei (AGN) are found in low-metallicity dwarf galaxies. Such a population could provide insight into the origins of supermassive black holes. Here we report near-infrared spectroscopic and X-ray observations of SDSS J105621.45+313822.1, a low-mass, low-metallicity galaxy with optical narrow line ratios consistent with star forming galaxies but a broad Hα line and mid-infrared colors consistent with an AGN. We detect the [Si VI] 1.96μm coronal line and a broad Paα line with a FWHM of 850 25~km~s-1. Together with the optical broad lines and coronal lines seen in the SDSS spectrum, we confirm the presence of a highly accreting black hole with mass (2.2 1.3) × 106~M, with a bolometric luminosity of ≈1044~erg~s-1 based on the coronal line luminosity, implying a highly accreting AGN. Chandra observations reveal a weak nuclear point source with LX,2-10 keV = (2.3 1.2) × 1041~erg~s-1, 2 orders of magnitude lower than that predicted by the mid-infrared luminosity, suggesting that the AGN is highly obscured despite showing broad lines in the optical spectrum. The low X-ray luminosity and optical narrow line ratios of J1056+3138 highlight the limitations of commonly employed diagnostics in the hunt for AGNs in the low metallicity low mass regime.