📝 SummarXiv

Abstract

We present the first results of V\textit{z}-GAL, a high-redshift CO(\textit{J} = 1 $-$ 0) large survey with the Karl G. Jansky Very Large Array, targeting 92 \textit{Herschel}-selected, infrared-luminous, dusty star-forming galaxies (DSFGs). This flux density-limited sample includes 106 DSFGs in total, along with 14 galaxies from a recent pilot study -- altogether doubling the to-date available high-redshift \coonezero observations. These sources cover redshifts 1 to 6 with available mid/high-\textit{J} CO transitions from the Northern Extended Millimeter Array \zgal survey. We detect \coonezero emission in 90/92 targets above signal-to-noise ratio of 2, while two DSFGs remain undetected. \vzgal also covers additional \cotwoone emission lines in 10 of these sources. We find gas masses of the entire \vzgal sample to be $\rm (\alpha_{CO}/{4.0}) \mu {M}_{\rm H_2}$ = $(2-20) \times {10}^{11}~\mathrm{M_{\odot}}$, calibrated using \coonezero line luminosities. We confirm that these DSFGs -- with derived gas depletion timescales of $(50-600)$ Myr -- represent a heterogeneous population, potentially comprising both main-sequence galaxies and starbursts in the early Universe. Using \coonezero luminosities as an anchor, we robustly derive the CO brightness temperature ratios with a good statistical significance up to \textit{J} = 6. Our measurements reveal a broad range of gas excitation conditions across the \vzgal DSFGs. We also explore [CI](1$-$0)/CO(1$-$0) ratios in 23 \vzgal galaxies that have existing detections of atomic carbon ground-state emission, [CI](1$-$0), from the \zgal survey. Our results show similar [CI]/CO ratio values across cosmic time for starbursts and local star-forming galaxy populations, supporting the use of \cionezero as an alternative cold gas tracer.