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Molecular gas in AzTEC/C159: a star-forming disk galaxy 1.3Gyr after the Big Bang
journal contribution
posted on 2023-06-09, 12:15 authored by Mark SargentWe studied the molecular gas properties of AzTEC/C159, a star-forming disk galaxy at z = 4.567, in order to better constrain the nature of the high-redshift end of the sub-mm selected galaxy (SMG) population. We secured ^12CO molecular line detections for the J=2?1 and J=5?4 transitions using the Karl G. Jansky Very Large Array (VLA) and the NOrthern Extended Millimeter Array (NOEMA) interferometer. The broad (FWHM~ 750 km s-1 ) and tentative double-peaked profiles of both ^12CO lines are consistent with an extended molecular gas reservoir, which is distributed in a rotating disk as previously revealed from [CII] 158 µm line observations. Based on the ^12CO(2?1) emission line we derived L’CO = (3.4 ± 0.6) × 10^10 K km s^?1pc^2, that yields a molecular gas mass of MH2 (aCO/4.3) = (1.5 ± 0.3) × 10^11 M and unveils a gas-rich system with µgas(aCO/4.3) = MH2 /M* = 3.3 ± 0.7. The extreme star formation efficiency (SFE) of AzTEC/C159, parametrized by the ratio L_IR/L’_CO = (216 ± 80) L? (K km s^?1pc^2) ?1, is comparable to merger-driven starbursts such as local ultra-luminous infrared galaxies (ULIRGs) and SMGs. Likewise, the ^12CO(5?4)/CO(2?1) line brightness temperature ratio of r_52 = 0.55 ± 0.15 is consistent with high excitation conditions, similar to that observed in SMGs. Based on mass budget considerations we constrained the value for the L 0 CO – H2 mass conversion factor in AzTEC/C159, i.e. aCO = 3.9 ^+2.7 _-1.3 M?K^ ?1 km s^?1pc^2, that is consistent with a self-gravitating molecular gas distribution as observed in local star-forming disk galaxies. Cold gas streams from cosmological filaments might be fueling a gravitationally unstable gas-rich disk in AzTEC/C159, which breaks into giant clumps forming stars as efficiently as in merger-driven systems and generate high gas excitation. These results support the evolutionary connection between AzTEC/C159-like systems and massive quiescent disk galaxies at z ~ 2.
Funding
10 billion years of galaxy evolution: establishing the links between star-formation and cold gas reservoirs; G1946; ROYAL SOCIETY; LT150041
History
Publication status
- Published
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- Accepted version
Journal
Astronomy and AstrophysicsISSN
0004-6361Publisher
EDP SciencesExternal DOI
Issue
A25Volume
615Page range
1-9Department affiliated with
- Physics and Astronomy Publications
Research groups affiliated with
- Astronomy Centre Publications
Full text available
- Yes
Peer reviewed?
- Yes
Legacy Posted Date
2018-02-20First Open Access (FOA) Date
2018-02-20First Compliant Deposit (FCD) Date
2018-02-20Usage metrics
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