The Spitzer Survey of the Small Magellanic Cloud: FIR Emission and Cold Gas in the SMC
Abstract
We present new far infrared maps of the Small Magellanic Cloud (SMC) at 24, 70, and 160 microns obtained as part of the Spitzer Survey of the Small Magellanic Cloud (S3MC,Bolatto et al. 2006). These maps cover most of the active star formation in the SMC Bar and the more quiescent Wing. We combine our maps with literature data to derive the dust surface density across the SMC. We find a total dust mass of Mdust = 3 105 Msun, implying a dust-to-hydrogen ratio over the region studied of log D/H = -2.86, or 1-to-700, which includes H2. Assuming the dust to trace the total gas column, we derive H2 surface densities across the SMC. We find a total H2 mass MH2 = 3.2 107 Msun in a distribution similar to that of the CO, but more extended. We compare profiles of CO and H2 around six molecular peaks and find that on average H2 is more extended than CO by a factor of 1.3. The implied CO-to-H2 conversion factor over the whole SMC is XCO = 13 +/- 1 1021 cm-2 (K km/s)-1. Over the volume occupied by CO we find a lower conversion factor, XCO = 6 +/- 1 1021 cm-2 (K km/s)-1, which is still a few times larger than that found using virial mass methods. The molecular peaks have H2 surface densities H2 ≈ 180 +/- 30 Msun pc-2, similar to those in Milky Way GMCs, and correspondingly low extinctions, AV 1 - 2 mag. To reconcile these measurements with predictions by the theory of photoionization-regulated star formation, which requires AV 6, the GMCs must be 3 times smaller than our 46 pc resolution element. We find that for a given hydrostatic gas pressure, the SMC has a 2 - 3 times lower ratio of molecular to atomic gas than spiral galaxies. Combined with the lower mean densities in the SMC this may explain why this galaxy has only 10% of its gas in the molecular phase.
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