CII in the Interstellar Medium: Excitation by H2 Revisited

Abstract

C+ is a critical constituent of many regions of the interstellar medium, as it can be a major reservoir of carbon and, under a wide range of conditions, the dominant gas coolant. Emission from its 158μm fine structure line is used to trace the structure of photon dominated regions in the Milky Way and is often employed as a measure of the star formation rate in external galaxies. Under most conditions, the emission from the single [CII] line is proportional to the collisional excitation rate coefficient. We here used improved calculations of the deexcitation rate of [CII] by collisions with H2 to calculate more accurate expressions for interstellar C+ fine structure emission, its critical density, and its cooling rate. The collision rates in the new quantum calculation are 25% larger than those previously available, and narrow the difference between rates for excitation by atomic and molecular hydrogen. This results in [CII] excitation being quasi-independent of the molecular fraction and thus dependent only on the total hydrogen particle density. A convenient expression for the cooling rate at temperatures between 20 K and 400 K, assuming an LTE H2 ortho to para ration is ( LTE~OPR) = (11.5 + 4.0\,e-100\, K/T kin)\;e-91.25\, K/T kin\,n ( C+)\,n( H2)× 10-24\; ergs~ cm-3~ s-1. The present work should allow more accurate and convenient analysis of the [] line emission and its cooling.