Resolved neutral carbon emission in nearby galaxies: [CI] Lines as Total Molecular Gas Tracers

Abstract

We present maps of atomic carbon [CI](1-0) and [CI](2-1) at a linear resolution ~1kpc scale for a sample of one HII, six LINER, three Seyfert and five starburst galaxies observed with Herschel. We compare spatial distributions of two [CI] lines with that of CO(1-0) emission, and find that both [CI] lines distribute similarly to CO(1-0) emission in most galaxies. We present luminosity ratio maps of L'[CI](1-0)/L'CO(1-0), L'[CI](2-1)/L'CO(1-0), L'[CI](2-1)/L'[CI](1-0) (hereafter R[CI]) and f70/f160. L'[CI](2-1)/L'CO(1-0), R[CI] and f70/f160 are centrally peaked in starbursts; whereas remain relatively constant in LINERs, indicating that star-forming activity can enhance carbon emission, especially for [CI](2-1). We explore the correlations between the luminosities of CO(1-0) and [CI] lines, and find that L'CO(1-0) correlates tightly and almost linearly with both L'[CI](1-0) and L'[CI](2-1), suggesting that [CI] lines, similar as CO(1-0), can trace total molecular gas in our resolved galaxies on kpc scales. We investigate the dependence of L'[CI](1-0)/L'CO(1-0), L'[CI](2-1)/L'CO(1-0) and [CI] excitation temperature Tex on dust temperature Tdust, and find non-correlation, a weak and modest correlation, respectively. The ratio of L'[CI](1-0)/L'CO(1-0) stays smooth distribution in most galaxies, indicating that the conversion factor of [CI](1-0) luminosity to H2 mass (X[CI](1-0)) changes with CO(1-0) conversion factor (αCO) proportionally. Under optically thin and LTE assumptions, we derive a galaxy-wide average carbon excitation temperature Tex ~ 19.7 0.5K and an average neutral carbon abundance X[CI]/X[H2] ~2.5 1.0 * 10-5 in our resolved sample, which is comparable to the usually adopted value of 3*10-5, but ~3 times lower than the carbon abundance in local (U)LIRGs. We conclude that the carbon abundance varies in different galaxy types.