No Galaxy-Scale [CII] Fast Outflow in the z=6.72 Red Quasar HSC J1205-0000

Abstract

HSC 120505.09-000027.9 (J1205-0000) is one of the highest redshift (z=6.72) dust-reddened quasars (red quasars) known to date. We present an improved analysis of Atacama Large Millimeter/submillimeter Array data of the [CII] 158\ μ m line and the underlying rest-frame far-infrared (FIR) continuum emission, previously reported in Izumi et al. (2021a), toward J1205-0000. Red quasars are thought to be a transitional phase from an obscured starburst to a luminous blue quasar, in some cases associated with massive outflows driven by the active galactic nucleus (AGN). J1205-0000 has a high FIR luminosity, LFIR=2.5× 1012\ L and a total IR luminosity of LTIR=3.5× 1012\ L, corresponding to a star formation rate (SFR) of 528\ M\ yr-1. With the [CII]-based dynamical mass of 1 × 1011~M, we conclude that J1205-0000 is hosted by a starburst galaxy. In contradiction to Izumi et al. (2021a), our improved analysis shows no hint of a broad component in the [CII] line spectrum. Thus there is no evidence for a host galaxy-scale fast [CII] outflow, despite the fact that J1205-0000 has fast nuclear ionized outflows seen in the rest-frame UV. We explore several scenarios for this discrepancy (e.g., early phase of AGN feedback, reliability of the [CII] line as a tracer of outflows), and we claim that it is still too early to conclude that there is no significant negative AGN feedback on star formation in this red quasar.

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