ALMA Observations of Cold Methanol Gas in the Large Magellanic Cloud (LMC): N79 South GMC
Abstract
We report ALMA continuum and molecular line observations at 0.1 pc resolution toward the super star cluster (SSC) candidate H72.97-69.39 in the N79 region of the LMC. The continuum emission has a sharp peak around the SSC candidate but is also widely distributed. We identify two continuum sources at the northern (N79S-1) and northwestern (N79S-2) positions of the SSC continuum peak, associated with CH3OH emission. In addition to CH3OH, we also detect H2CO, H2CS, CS, SO, CO, CN, and CCH at the positions of N79S-1 and N79S-2. The rotation diagram analysis of CH3OH and SO lines yields an average gas temperature of 13 0.4 K for N79S-1 and 15 0.9 K for N79S-2. Most emission lines exhibit line widths of less than 2.8 km s-1, consistent with emissions from cold, dense molecular cloud cores. The abundance of cold CH3OH gas is estimated to be (2.1 1.1)× 10-9 at N79S-1 and (4.5 2.5)× 10-10 at N79S-2. Despite the lower metallicity in the LMC, the CH3OH abundance at N79S-1 is comparable to that of similar cold sources in our Galaxy. However, the formation of organic molecules is inhibited throughout the N79 regions, as can be seen in the non-detection of CH3OH in most of the regions. The two positions N79S-1 and N79S-2 would be exceptional positions, where CH3OH production is efficient. The possible origins of cold CH3OH gas in these dense cores are discussed, along with a possible explanation for the non-detection of CH3OH in the SSC candidate.
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