ADF22-WEB: Detection of a molecular gas reservoir in a massive quiescent galaxy located in a z≈3 proto-cluster core

Abstract

We present a study of the molecular gas reservoirs and dust contents in three quiescent galaxies (QGs) located in the core of the z=3.09 SSA22 proto-cluster. Using the Atacama Large Millimeter/submillimeter Array (ALMA), we detect CO(3--2) emission in one galaxy, ADF22-QG1, marking the first direct detection of molecular gas in a quiescent galaxy from the early universe. The detected galaxy, ADF22-QG1, has a molecular gas mass of logM H2/M = 10.26 0.07 assuming a CO-to-H2 conversion factor α CO = 4.4 (logM H2/M = 9.52 0.07 for α CO = 0.8), corresponding to a gas mass fraction of f gas ≈ 14\% (2.5\%). The gas-to-dust ratio δ gdr170 (δ gdr30) for α CO = 4.4 (α CO =0.8) is also derived for the first time for a QG at the epoch. For the other two galaxies, ADF22-QG2 and ADF22-QG3, non detections of CO(3--2) emission provide upper limits, f gas ≈ 17\% (3.1\%) and f gas ≈ 13\% (2.4\%), respectively. The inferred gas-consumption history of ADF22-QG1, based on its star-formation history, suggests that (i) dusty star-forming galaxies (DSFGs) at z = 4--6 are plausible progenitors, and (ii) the cessation of gas accretion from cosmic web filaments plays an important role in their evolution to quenched systems. Furthermore, the presence of a detectable molecular gas reservoir in ADF22-QG1 indicates that additional mechanisms, such as morphological quenching, may be required to fully explain its quiescent nature.

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