Serendipitous Discovery of an Optically-Dark Ultra-Luminous Infrared Galaxy at z = 3.4

Abstract

Dusty, submillimeter-selected galaxies without optical counterparts contribute a non-negligible fraction of the star formation in the early universe. However, such a population is difficult to detect through classical optical/UV-based surveys. We report the serendipitous discovery of such an optically dark galaxy, behind the quadruply-lensed z=2.56 quasar, H1413+117, offset to the north by 6. From 12CO J=4--3, J=6--5, and part of the J=13--12 transitions, which all spatially coincide with a compact submillimeter continuum emission, we determine an unambiguous spectroscopic redshift, z=3.386 0.005. This galaxy has a molecular mass M mol 1011 M and a black hole mass M BH 108 M, estimated from 12CO J=4--3 and archival Chandra X-ray data (L 2-10,keV 4 × 1044\,erg\,s-1), respectively. We also estimate a total infrared luminosity of L FIR = (2.82.3) × 1012 L and a stellar mass of M* 1011 M, from spectral energy distribution fitting. According to these simple mass estimations, this gas-rich and X-ray bright galaxy might be in a transition phase from starburst to quasar offering a unique case for studying galaxy-black hole co-evolution under extremely dusty conditions.

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