The Survey of Lines in M31 (SLIM): The Drivers of the [CII]/TIR Variation

Abstract

The ratio of the [CII] 158\,μm emission line over the total infrared emission (TIR) is often used as a proxy for the photoelectric (PE) heating efficiency (ε PE) of the far-ultraviolet (FUV) photons absorbed by dust in the interstellar medium. In the nearby galaxy M31, we measure a strong radial variation of [CII]/TIR that we rule out as being due to an intrinsic variation in ε PE. [CII]/TIR fails as a proxy for ε PE, because the TIR measures all dust heating, not just the contribution from FUV photons capable of ejecting electrons from dust grains. Using extensive multiwavelength coverage from the FUV to far-infrared (FIR), we infer the attenuated FUV emission ( UVatt), and the total attenuated flux ( TOTatt). We find [CII]/TIR to be strongly correlated with UVatt/ TOTatt, indicating that, in M31 at least, one of the dominant drivers for [CII]/TIR variation is the relative hardness of the absorbed stellar radiation field. We define εPEUV, [CII]/ UVatt which should be more closely related to the actual PE efficiency, which we find to be essentially constant (1.85 0.8 \%) in all explored fields in M31. This suggests that part of the observed variation of [CII]/TIR in other galaxies is likely due to a change in the relative hardness of the absorbed stellar radiation field, caused by a combination of variations in the stellar population, dust opacity and galaxy metallicity, although PE efficiency may also vary across a wider range of environments.