The [C II] line emission as an interstellar medium probe in the MARIGOLD galaxies
Abstract
The [C II] fine-structure line at 157.74 μm is one of the brightest far-infrared emission lines and an important probe of galaxy properties like the star formation rate (SFR) and the molecular gas mass (Mmol). Using high-resolution numerical simulations, we test the reliability of the [C II] line as a tracer of Mmol in high-redshift galaxies and investigate secondary dependences of the [C II]-Mmol relation on the SFR and metallicity. We investigate the time evolution of the [C II] luminosity function (LF) and the relative spatial extent of [C II] emission and star formation. We post-process galaxies from the MARIGOLD simulations at redshifts 3 z ≤ 7 to obtain their [C II] emission. These simulations were performed with the sub-grid chemistry model, HYACINTH, to track the non-equilibrium abundances of H2, CO, C and C+ on the fly. Based on a statistical sample of galaxies at these redshifts, we investigate correlations between the [C II] line luminosity, L([C II]), and the SFR, the Mmol, the total gas mass and the metal mass in gas phase (Mmetal). We find that accounting for secondary dependencies in the L([C II])-Mmol relation improves the Mmol prediction by a factor of 2.3. The [C II] emission in our simulated galaxies shows the tightest correlation with Mmetal. About 20% (10%) of our simulated galaxies at z=5 (z=4) have [C II] emission extending ≥ 2 times farther than the star formation activity. The [C II] LF evolves rapidly and is always well approximated by a double power law that does not show an exponential cutoff at the bright end. We record a 600-fold increase in the number density of L([C II]) 109 \, L emitters in 1.4 Gyr.
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