ALMA Confirmation of an Obscured Hyperluminous Radio-Loud AGN at z=6.853 Associated with a Dusty Starburst in the 1.5 deg2 COSMOS Field

Abstract

We present band 6 ALMA observations of a heavily-obscured radio-loud (L1.4\ GHz=1025.4 W Hz-1) AGN candidate at zphot=6.830.06 found in the 1.5 deg2 COSMOS field. The ALMA data reveal detections of exceptionally strong [CII]158μm (z[CII]=6.8532) and underlying dust continuum emission from this object (COS-87259), where the [CII] line luminosity, line width, and 158μm continuum luminosity are comparable to that seen from z7 sub-mm galaxies and quasar hosts. The 158μm continuum detection suggests a total infrared luminosity of 9×1012 L with corresponding very large obscured star formation rate (1300 M/yr) and dust mass (2×109 M). The strong break seen between the VIRCam and IRAC photometry perhaps suggests that COS-87259 is an extremely massive reionization era galaxy with M≈1.7×1011 M. Moreover, the MIPS, PACS, and SPIRE detections imply that this object harbors an AGN that is heavily obscured (τ_9.7μ m=2.3) with a bolometric luminosity of approximately 5×1013 L. Such a very high AGN luminosity suggests this object is powered by an ≈1.6 × 109 M black hole if accreting near the Eddington limit, and is effectively a highly-obscured version of an extremely UV-luminous (M1450≈-27.3) z7 quasar. Notably, these z7 quasars are an exceedingly rare population (0.001 deg-2) while COS-87259 was identified over a relatively small field. Future very wide-area surveys with, e.g., Roman and Euclid have the potential to identify many more extremely red yet UV-bright z7 objects similar to COS-87259, providing richer insight into the occurrence of intense obscured star formation and supermassive black hole growth among this population.

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