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Abstract We investigate the dust mass buildup and star formation efficiency of two galaxies at z > 12—GHZ2 and GS-z14-0—by combining Atacama Large Millimeter/submillimeter Array and JWST observations with an analytical model that assumes dust at thermal equilibrium. We obtained 3 σ constraints on the dust mass of log M dust / M ⊙ 5.0 and 12. Given the young stellar ages of these galaxies ( t age ∼ 10 Myr), dust grain growth via accretion may still be ineffective at this stage, though it likely works efficiently to produce significant dust in galaxies at z ∼ 7. The star formation efficiencies, defined as the star formation rate divided by the molecular gas mass, reach ∼10 Gyr −1 over a 10 Myr timescale, aligning with the expected redshift evolution of “starburst” galaxies with efficiencies that are ∼0.5–1 dex higher than those in main-sequence galaxies. This starburst phase seems to be common in UV-bright galaxies at z > 12 and is likely associated with the unique conditions of the early phases of galaxy formation, such as bursty star formation. Direct observations of molecular gas tracers like C ii will be crucial to further understanding the nature of bright galaxies at z > 12.
Mitsuhashi et al. (Fri,) studied this question.
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