Comparing [CII], HI, and CO dynamics of nearby galaxies

Abstract

The HI and CO components of the interstellar medium (ISM) are usually used to derive the dynamical mass Mdyn of nearby galaxies. Both components become too faint to be used as a tracer in observations of high-redshift galaxies. In those cases, the 158 μm line of atomic carbon [CII] may be the only way to derive Mdyn. As the distribution and kinematics of the ISM tracer affects the determination of Mdyn, it is important to quantify the relative distributions of HI, CO and [CII]. HI and CO are well-characterised observationally, however, for [CII] only very few measurements exist. Here we compare observations of CO, HI, and [CII] emission of a sample of nearby galaxies, drawn from the HERACLES, THINGS and KINGFISH surveys. We find that within R25, the average [CII] exponential radial profile is slightly shallower than that of the CO, but much steeper than the HI distribution. This is also reflected in the integrated spectrum ("global profile"), where the [CII] spectrum looks more like that of the CO than that of the HI. For one galaxy, a spectrally resolved comparison of integrated spectra was possible; other comparisons were limited by the intrinsic line-widths of the galaxies and the coarse velocity resolution of the [CII] data. Using high-spectral-resolution SOFIA [CII] data of a number of star forming regions in two nearby galaxies, we find that their [CII] linewidths agree better with those of the CO than the HI. As the radial extent of a given ISM tracer is a key input in deriving Mdyn from spatially unresolved data, we conclude that the relevant length-scale to use in determining Mdyn based on [CII] data, is that of the well-characterised CO distribution. This length scale is similar to that of the optical disk.