Submillimeter Array Identification of the Millimeter-Selected Galaxy SSA22-AzTEC1: A Protoquasar in a Protocluster?

Abstract

We present results from Submillimeter Array (SMA) 860-micron sub-arcsec astrometry and multiwavelength observations of the brightest millimeter (S1.1mm = 8.4 mJy) source, SSA22-AzTEC1, found near the core of the SSA22 protocluster that is traced by Lyα emitting galaxies at z = 3.09. We identify a 860-micron counterpart with a flux density of S860um = 12.2 +/- 2.3 mJy and absolute positional accuracy that is better than 0.3". At the SMA position, we find radio to mid-infrared counterparts, whilst no object is found in Subaru optical and near-infrared deep images at wavelengths 1 micron (J > 25.4 in AB, 2σ). The photometric redshift estimate, using flux densities at 24 microns, indicates zphot = 3.19+0.26-0.35, consistent with the protocluster redshift. We then model the near-to-mid-infrared spectral energy distribution (SED) of SSA22-AzTEC1, and find that the SED modeling requires a large extinction (AV ≈ 3.4 mag) of starlight from a stellar component with Mstar ~ 1010.9 Msun, assuming z = 3.1. Additionally, we find a significant X-ray counterpart with a very hard spectrum (Gammaeff = -0.34 +0.57-0.61), strongly suggesting that SSA22-AzTEC1 harbors a luminous AGN (LX ~ 3*1044 ergs s-1) behind a large hydrogen column (NH ~ 1024 cm-2). The AGN, however, is responsible for only ~10% of the bolometric luminosity of the host galaxy, and therefore the star-formation activity likely dominates the submillimeter emission. It is possible that SSA22-AzTEC1 is the first example of a protoquasar growing at the bottom of the gravitational potential underlying the SSA22 protocluster.