A Comparison of the Chemical Composition of Main-sequence and Giant Stars in the Open Cluster NCC 752

The chemical composition of stars in open clusters provides the best information on the chemical evolution of stars via comparison of main-sequence stars with evolved giants. This is a case study of the abundances in the dwarfs and giants in the old open cluster NGC 752. It is also a pilot program f...

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Published inThe Astrophysical journal Vol. 878; no. 2; pp. 99 - 119
Main Authors Lum, Michael G., Boesgaard, Ann Merchant
Format Journal Article
LanguageEnglish
Published Philadelphia The American Astronomical Society 20.06.2019
IOP Publishing
Subjects
Abundance
Aluminum
astronomical databases: miscellaneous
Astrophysics
Automatic pilots
Chemical composition
Chemical evolution
Giant stars
Heavy elements
Magnesium
Main sequence stars
nuclear reactions, nucleosynthesis, abundances
Open clusters
open clusters and associations: individual (NGC 752)
Organic chemistry
Stars
stars: abundances
stars: evolution
Stellar evolution
Online AccessGet full text
ISSN0004-637X
1538-4357
1538-4357
DOI10.3847/1538-4357/ab1c4d

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Abstract The chemical composition of stars in open clusters provides the best information on the chemical evolution of stars via comparison of main-sequence stars with evolved giants. This is a case study of the abundances in the dwarfs and giants in the old open cluster NGC 752. It is also a pilot program for automated abundance determinations, including equivalent-width measurements, stellar parameter determinations, and abundance analysis. We have found abundances of 31 element−ion combinations in 23 dwarfs and six giants. The mean cluster abundance of Fe is solar with [Fe/H] = −0.01 0.06 with no significant difference between the dwarfs and giants. We find that the cluster abundances of other elements, including alpha-elements, to be at or slightly above solar levels. We find some evidence for CNO processing in the spectra of the giants. The enhancement of Na in giants indicates that the NeNa cycle has occurred. The abundances of Mg and Al are similar in the dwarfs and giants, indicating that the hotter MgAl cycle has not occurred. We find no evidence of s-process enhancements in the abundances of heavy elements in the giants.
AbstractList The chemical composition of stars in open clusters provides the best information on the chemical evolution of stars via comparison of main-sequence stars with evolved giants. This is a case study of the abundances in the dwarfs and giants in the old open cluster NGC 752. It is also a pilot program for automated abundance determinations, including equivalent-width measurements, stellar parameter determinations, and abundance analysis. We have found abundances of 31 element−ion combinations in 23 dwarfs and six giants. The mean cluster abundance of Fe is solar with [Fe/H] = −0.01 0.06 with no significant difference between the dwarfs and giants. We find that the cluster abundances of other elements, including alpha-elements, to be at or slightly above solar levels. We find some evidence for CNO processing in the spectra of the giants. The enhancement of Na in giants indicates that the NeNa cycle has occurred. The abundances of Mg and Al are similar in the dwarfs and giants, indicating that the hotter MgAl cycle has not occurred. We find no evidence of s-process enhancements in the abundances of heavy elements in the giants.
The chemical composition of stars in open clusters provides the best information on the chemical evolution of stars via comparison of main-sequence stars with evolved giants. This is a case study of the abundances in the dwarfs and giants in the old open cluster NGC 752. It is also a pilot program for automated abundance determinations, including equivalent-width measurements, stellar parameter determinations, and abundance analysis. We have found abundances of 31 element−ion combinations in 23 dwarfs and six giants. The mean cluster abundance of Fe is solar with [Fe/H] = −0.01 ± 0.06 with no significant difference between the dwarfs and giants. We find that the cluster abundances of other elements, including alpha-elements, to be at or slightly above solar levels. We find some evidence for CNO processing in the spectra of the giants. The enhancement of Na in giants indicates that the NeNa cycle has occurred. The abundances of Mg and Al are similar in the dwarfs and giants, indicating that the hotter MgAl cycle has not occurred. We find no evidence of s-process enhancements in the abundances of heavy elements in the giants.
Author Lum, Michael G.
Boesgaard, Ann Merchant
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  fullname: Lum, Michael G.
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  givenname: Ann Merchant
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  surname: Boesgaard
  fullname: Boesgaard, Ann Merchant
  organization: University of Hawai'i Institute for Astronomy, 2680 Woodlawn Drive, Honolulu, HI 96822, USA
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Snippet The chemical composition of stars in open clusters provides the best information on the chemical evolution of stars via comparison of main-sequence stars with...
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SubjectTerms Abundance
Aluminum
astronomical databases: miscellaneous
Astrophysics
Automatic pilots
Chemical composition
Chemical evolution
Giant stars
Heavy elements
Magnesium
Main sequence stars
nuclear reactions, nucleosynthesis, abundances
Open clusters
open clusters and associations: individual (NGC 752)
Organic chemistry
Stars
stars: abundances
stars: evolution
Stellar evolution
Title A Comparison of the Chemical Composition of Main-sequence and Giant Stars in the Open Cluster NCC 752
URI https://iopscience.iop.org/article/10.3847/1538-4357/ab1c4d
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