The reliability of [C ii] as an indicator of the star formation rate

Abstract

The [CII] 157.74 \mu m line is an important coolant for the neutral interstellar gas. Since [CII] is the brightest spectral line for most galaxies, it is a potentially powerful tracer of star formation activity. In this paper we present a calibration of the star formation rate as a function of the [CII] luminosity for a sample of 24 star-forming galaxies in the nearby universe. This sample includes objects classified as HII regions or LINERs, but omits all Seyfert galaxies with a significant AGN contribution to the mid-infrared photometry. In order to calibrate the SFR against the line luminosity, we rely on both GALEX FUV data, which is an ideal tracer of the unobscured star formation, and MIPS 24 \mu m, to probe the dust-enshrouded fraction of star formation. In case of normal star-forming galaxies, the [CII] luminosity correlates well with the star formation rate. However, the extension of this relation to more quiescent (Halpha EW <= 10 A) or ultraluminous galaxies should be handled with caution, since these objects show a non-linearity in the L([CII])-to-L(FIR) ratio as a function of L(FIR) (and thus, their star formation activity). We provide two possible explanations for the origin of the tight correlation between the [CII] emission and the star formation activity on a global galaxy-scale. A first interpretation could be that the [CII] emission from PDRs arises from the immediate surroundings of star-forming regions. Since PDRs are neutral regions of warm dense gas at the boundaries between HII regions and molecular clouds and they provide the bulk of [CII] emission in most galaxies, we believe that a more or less constant contribution from these outer layers of photon-dominated molecular clumps to the [CII] emission provides a straightforward explanation for this close link between the [CII] luminosity and SFR. Alternatively,... (abridged)