The CO-to-H2 Conversion Factor in the Barred Spiral Galaxy M83

Abstract

We analyze the CO-to-H2 conversion factor (αCO) in the nearby barred spiral galaxy M83. We present new HI observations from the JVLA and single-dish GBT in the disk of the galaxy, and combine them with maps of CO(1-0) integrated intensity and dust surface density from the literature. αCO and the gas-to-dust ratio (δGDR) are simultaneously derived in annuli of 2 kpc width from R = 1-7 kpc. We find that αCO and δGDR both increase radially, by a factor of 2-3 from the center to the outskirts of the disk. The luminosity-weighted averages over the disk are αCO = 3.14 (2.06, 4.96) M pc-2[K· km s-1]-1 and δGDR = 137 (111, 182) at the 68% (1σ) confidence level. These are consistent with the αCO and δGDR values measured in the Milky Way. In addition to possible variations of αCO due to the radial metallicity gradient, we test the possibility of variations in αCO due to changes in the underlying cloud populations, as a function of galactic radius. Using a truncated power-law molecular cloud CO luminosity function and an empirical power-law relation for cloud-mass and luminosity, we show that the changes in the underlying cloud population may account for a factor of 1.5-2.0 radial change in αCO.

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