Molecular Gas in the Outflow of the Small Magellanic Cloud
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Authors
Di Teodoro, Enrico M.
McClure-Griffiths, Naomi
De Breuck, C
Armillotta, Lucia
Pingel, Nickolas
Jameson, Katherine
Dickey, John
Rubio, Monica
Stanimirovic, Snezana
Staveley-Smith, Lister
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Institute of Physics Publishing Ltd.
Abstract
We report the first evidence of molecular gas in two atomic hydrogen (H I) clouds associated with gas outflowing
from the Small Magellanic Cloud (SMC). We used the Atacama Pathfinder Experiment to detect and spatially
resolve individual clumps of 12CO(2 → 1) emission in both clouds. CO clumps are compact (∼10 pc) and
dynamically cold (line widths - 1 km s 1
). Most CO emission appears to be offset from the peaks of the H I
emission, some molecular gas lies in regions without a clear H I counterpart. We estimate a total molecular gas
mass of M M mol 10 10 –
3 4 in each cloud and molecular gas fractions up to 30% of the total cold gas mass
(molecular + neutral). Under the assumption that this gas is escaping the galaxy, we calculated a cold gas outflow
rate of ˙ – M M - gas 0.3 1.8 yr 1 and mass loading factors of b 3 1– 2 at a distance larger than 1 kpc. These
results show that relatively weak starburst-driven winds in dwarf galaxies like the SMC are able to accelerate
significant amounts of cold and dense matter and inject it into the surrounding environment.
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Astrophysical Journal Letters
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Restricted until
2037-12-31