VLT infrared spectra of carbon stars in the Large Magellanic Clouds
and their
metallicity dependence
Matsuura M., Zijlstra A.A., van Loon J.Th., Yamamura I.,
Markwick A.J., Woods P.M.,
Waters L.B.F.M., 2002, ApJ, 580, L133
Abstract
Very Large Telescope (VLT) L-band spectra of six carbon stars in the
Large Magellanic Cloud are presented. The stars show absorption bands
at 3.1 micron (HCN and C2H2), and 3.8 micron, which is probably due to
C2H2. Two LMC stars show strong 3.5 micron HCN absorption. The equivalent
widths of the 3.1 micron and 3.8 micron bands are systematically larger in LMC
carbon stars than in carbon stars in the solar neighborhood. Moreover,
the ratio of the equivalent widths of the 3.8 and 3.1 micron bands is much
larger in the LMC, suggesting a higher ratio of n(C2H2)/n(HCN). The
stronger absorption bands are in contrast to the assumption that if
the elemental abundances are scaled from the carbon star's abundances
in the solar neighbor, the abundances of these molecules are less at
lower metallicity. We argue for a systematically larger C/O ratio in
LMC carbon stars. In the Galactic carbon stars n(C)/n(O)~1.05-1.1 on
average; our chemical model shows that the stronger molecular bands in
the LMC carbon stars could be explained with n(C)/n(O)>1.2. The higher
C/O ratio can also explain the higher ratio of n(C2H2)/n(HCN) in LMC
stars than in the solar neighborhood.
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