Detection of Rotational CO Emission From the Red-supergiants in the Large Magellanic Cloud

Open Access
Authors
  • M. Matsuura
  • B. Sargent
  • B. Swinyard
  • J.A. Yates
Publication date 2015
Host editors
  • T. Lanz
  • E. Lagadec
  • F. Millour
Book title The Physics of Evolved Stars: A Conference Dedicated to the Memory of Olivier Chesneau: Nice, France, June 8-12, 2015
ISBN
  • 9782759819072
Series EAS Publications Series
Event The Physics of Evolved Stars: A Conference Dedicated to the Memory of Olivier Chesneau
Volume | Issue number 7
Pages (from-to) 53-56
Publisher Les Ulis: EDP Sciences
Organisations
  • Faculty of Science (FNWI) - Anton Pannekoek Institute for Astronomy (API)
Abstract
It is yet well understood how mass-loss rates from evolved stars depend on metallicities. With a half of the solar metallicity and the distance of only 50 kpc, the evolved stars of the Large Magellanic Cloud (LMC) are an ideal target for studying mass loss at low metallicity. We have obtained spectra of red-supergiants in the LMC, using the Hershel Space Observatory, detecting CO thermal lines fro J=6-5 up to 15-14 lines. Modelling CO lines with non-LTE Radiative transfer code suggests that CO lines intensities can be well explained with high gas-to-dust ratio, with no obvious reduction in mass-loss rate at the LMC. We conclude that the luminosities of the stars are dominant factors on mass-loss rates, rather than the metallicity.
Document type Conference contribution
Language English
Published at https://doi.org/10.1051/eas/1571010
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Detection of Rotational CO Emission (Final published version)
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