A Large Molecular Gas Reservoir in the Protocluster SPT2349-56 at z\,=\,4.3

Abstract

We present Atacama Compact Array (ACA) Band-3 observations of the protocluster SPT2349-56, an extreme system hosting \,12 submillimeter galaxies (SMGs) at z\,=\,4.3, to study its integrated molecular gas content via CO(4-3) and long-wavelength dust continuum. The 30-hour integration represents one of the longest exposures yet taken on a single pointing with the ACA 7-m. The low-resolution ACA data (21.0''\,×\,12.2'') reveal a 75% excess CO(4-3) flux compared to the sum of individual sources detected in higher-resolution Atacama Large Millimeter Array (ALMA) data (1.0''\,×\,0.8''). Our work also reveals a similar result by tapering the ALMA data to 10''. In contrast, the 3.2mm dust continuum shows little discrepancy between ACA and ALMA. A single-dish [CII] spectrum obtained by APEX/FLASH supports the ACA CO(4-3) result, revealing a large excess in [CII] emission relative to ALMA. The missing flux is unlikely due to undetected faint sources but instead suggests that high-resolution ALMA observations might miss extended and low-surface-brightness gas. Such emission could originate from the circum-galactic medium (CGM) or the pre-heated proto-intracluster medium (proto-ICM). If this molecular gas reservoir replenishes the star formation fuel, the overall depletion timescale will exceed 400Myr, reducing the requirement for the simultaneous SMG activity in SPT2349-56. Our results highlight the role of an extended gas reservoir in sustaining a high star formation rate (SFR) in SPT2349-56, and potentially establishing the ICM during the transition phase to a mature cluster.

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