High-Resolution Spectroscopy of Cool Carbon-Rich and Metal-Poor Star HD 209621

High-Resolution Spectroscopy of Cool Carbon-Rich and Metal-Poor Star HD 209621

Element abundances for HD 209621 obtained earlier display significant discrepancies, especially in the case of CNO and neutron-capture elements. Therefore we performed a detailed analysis of chemical composition of this star using a new high-resolution spectrum. Atmospheric parameters and abundance...

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Main Authors: Matrozis E., Začs L., Barzdis A.
Format: Article
Language:English
Published: De Gruyter 2012-12-01
Series:Open Astronomy
Subjects:
stars
abundances
atmospheres
spectroscopic binaries
carbon
individual
hd 209621
Online Access:https://doi.org/10.1515/astro-2017-0399
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spelling doaj-40d77fb33f7443768ac77142a775fe342021-09-06T19:40:14ZengDe GruyterOpen Astronomy2543-63762012-12-0121439942010.1515/astro-2017-0399astro-2017-0399High-Resolution Spectroscopy of Cool Carbon-Rich and Metal-Poor Star HD 209621Matrozis E.0Začs L.1Barzdis A.2Faculty of Physics and Mathematics, University of Latvia, Raiņa bulvāris 19, LV-1586 Rīga, LatviaFaculty of Physics and Mathematics, University of Latvia, Raiņa bulvāris 19, LV-1586 Rīga, LatviaFaculty of Physics and Mathematics, University of Latvia, Raiņa bulvāris 19, LV-1586 Rīga, LatviaElement abundances for HD 209621 obtained earlier display significant discrepancies, especially in the case of CNO and neutron-capture elements. Therefore we performed a detailed analysis of chemical composition of this star using a new high-resolution spectrum. Atmospheric parameters and abundance pattern are updated, and the mechanism of nucleosynthesis is examined. Abundances for 11 elements are calculated for the first time. The method of atmospheric models and spectral synthesis was used. The following values of atmospheric parameters are derived: Teff = 4400 K, log g = 1.0 (cgs) and ξt = 1.9 kms−1. The iron abundance of the star was found to be low, at [Fe/H] = -1.91±0.10. The carbon to oxygen ratio is high, C/O ≃ +2.0. Low carbon to nitrogen ratio, [C/N] ≃ -0.8, and low carbon isotopic ratio, 12C/13C = 17 ±5, are in agreement with the theory of nucleosynthesis of intermediate-mass AGB stars. The barium to europium ratio is high, [Ba/Eu] = +0.28, and is typical for carbon-enhanced metal-poor CEMP-r/s stars. The observed abundance pattern of neutron capture elements is reproduced well by the scaled solar system abundances.https://doi.org/10.1515/astro-2017-0399starsabundancesatmospheresspectroscopic binariescarbonindividualhd 209621
collection DOAJ
language English
format Article
sources DOAJ
author Matrozis E.
Začs L.
Barzdis A.
spellingShingle Matrozis E.
Začs L.
Barzdis A.
High-Resolution Spectroscopy of Cool Carbon-Rich and Metal-Poor Star HD 209621
Open Astronomy
stars
abundances
atmospheres
spectroscopic binaries
carbon
individual
hd 209621
author_facet Matrozis E.
Začs L.
Barzdis A.
author_sort Matrozis E.
title High-Resolution Spectroscopy of Cool Carbon-Rich and Metal-Poor Star HD 209621
title_short High-Resolution Spectroscopy of Cool Carbon-Rich and Metal-Poor Star HD 209621
title_full High-Resolution Spectroscopy of Cool Carbon-Rich and Metal-Poor Star HD 209621
title_fullStr High-Resolution Spectroscopy of Cool Carbon-Rich and Metal-Poor Star HD 209621
title_full_unstemmed High-Resolution Spectroscopy of Cool Carbon-Rich and Metal-Poor Star HD 209621
title_sort high-resolution spectroscopy of cool carbon-rich and metal-poor star hd 209621
publisher De Gruyter
series Open Astronomy
issn 2543-6376
publishDate 2012-12-01
description Element abundances for HD 209621 obtained earlier display significant discrepancies, especially in the case of CNO and neutron-capture elements. Therefore we performed a detailed analysis of chemical composition of this star using a new high-resolution spectrum. Atmospheric parameters and abundance pattern are updated, and the mechanism of nucleosynthesis is examined. Abundances for 11 elements are calculated for the first time. The method of atmospheric models and spectral synthesis was used. The following values of atmospheric parameters are derived: Teff = 4400 K, log g = 1.0 (cgs) and ξt = 1.9 kms−1. The iron abundance of the star was found to be low, at [Fe/H] = -1.91±0.10. The carbon to oxygen ratio is high, C/O ≃ +2.0. Low carbon to nitrogen ratio, [C/N] ≃ -0.8, and low carbon isotopic ratio, 12C/13C = 17 ±5, are in agreement with the theory of nucleosynthesis of intermediate-mass AGB stars. The barium to europium ratio is high, [Ba/Eu] = +0.28, and is typical for carbon-enhanced metal-poor CEMP-r/s stars. The observed abundance pattern of neutron capture elements is reproduced well by the scaled solar system abundances.
topic stars
abundances
atmospheres
spectroscopic binaries
carbon
individual
hd 209621
url https://doi.org/10.1515/astro-2017-0399
work_keys_str_mv AT matrozise highresolutionspectroscopyofcoolcarbonrichandmetalpoorstarhd209621
AT zacsl highresolutionspectroscopyofcoolcarbonrichandmetalpoorstarhd209621
AT barzdisa highresolutionspectroscopyofcoolcarbonrichandmetalpoorstarhd209621
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