The 300-pc Scale ALMA View of [CI] 3P1-3P0, CO J=1-0, and 609 μm Dust Continuum in A Luminous Infrared Galaxy

Abstract

We present high-quality ALMA Band 8 observations of the [CI] 3P1-3P0 line and 609 μm dust continuum emission toward the nearby luminous infrared galaxy (LIRG) IRAS F18293-3413, as well as matched resolution (300-pc scale) Band 3 CO J=1-0 data, which allow us to assess the use of the [CI] 3P1-3P0 line as a total gas mass estimator. We find that the [CI] line basically traces structures detected in CO (and dust), and a mean (median) [CI]/CO luminosity (L' [CI]/L' CO) ratio of 0.17 (0.16) with a scatter of 0.04. However, a pixel-by-pixel comparison revealed that there is a radial L' [CI]/L' CO gradient and a superlinear L' CO vs. L' [CI] relation (slope = 1.54 0.02) at this spatial scale, which can be explained by radial excitation and/or line opacity gradients. Based on the molecular gas masses converted from the dust continuum emission, we found that the CO-to-H2 and [CI]-to-H2 conversion factors are relatively flat across the molecular gas disk with a median value of 3.5+1.9-1.3 and 20.7+9.2-4.9 M (K km s-1 pc2)-1, respectively. A non-LTE calculation yields that typical molecular gas properties seen in nearby (U)LIRGs (n H2 = 103-4 cm-3, T kin 50 K, and X CI = (0.8-2.3) × 10-5) can naturally reproduce the derived [CI]-to-H2 conversion factor. However, we caution that a careful treatment of the physical gas properties is required in order to measure H2 gas mass distributions in galaxies using a single [CI] line. Otherwise, a single [CI] line is not a good molecular gas estimator in a spatially resolved manner.