Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2016 |
| Outros Autores: | , , |
| Tipo de documento: | Artigo |
| Idioma: | eng |
| Título da fonte: | Repositório Institucional da UFRN |
| Texto Completo: | https://repositorio.ufrn.br/jspui/handle/123456789/29048 |
Resumo: | Lithium abundances in open clusters provide an e ective way of probing mixing processes in the interior of solar-type stars and convection is not the only mixing mechanism at work. To understand which mixing mechanisms are occurring in low-mass stars, we test non-standard models, which were calibrated using the Sun, with observations of three open clusters of di erent ages, the Hyades, NGC 752, and M67. We collected all available data, and for the open cluster NGC 752, we redetermine the equivalent widths and the lithium abundances. Two sets of evolutionary models were computed, one grid of only standard models with microscopic di usion and one grid with rotation-induced mixing, at metallicity [Fe/H] = 0.13, 0.0, and 0.01 dex, respectively, using the Toulouse-Geneva evolution code. We compare observations with models in a color–magnitude diagram for each cluster to infer a cluster age and a stellar mass for each cluster member. Then, for each cluster we analyze the lithium abundance of each star as a function of mass. The data for the open clusters Hyades, NGC 752, and M67, are compatible with lithium abundance being a function of both age and mass for stars in these clusters. Our models with meridional circulation qualitatively reproduce the general trend of lithium abundance evolution as a function of stellar mass in all three clusters. This study points out the importance of mass dependence in the evolution of lithium abundance as a function of age. Comparison between models with and without rotation-induced mixing shows that the inclusion of meridional circulation is essential to account for lithium depletion in low-mass stars. However, our results suggest that other mechanisms should be included to explain the Li-dip and the lithium dispersion in low-mass stars |
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Castro, M.Duarte, T.Pace, G.Nascimento Júnior, José Dias do2020-05-21T17:57:58Z2020-05-21T17:57:58Z2016-03-12CASTRO, M.; DUARTE, T.; PACE, G.; NASCIMENTO JUNIOR, J. D. do. Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67: Hyades, NGC 752, and M 67. Astronomy & Astrophysics, [s.l.], v. 590, p. A94, 20 maio 2016. Disponível em: http://dx.doi.org/10.1051/0004-6361/201527583. Acesso em: 14 mai. 2020.1678-765Xhttps://repositorio.ufrn.br/jspui/handle/123456789/2904810.1051/0004-6361/201527583Lithium abundances in open clusters provide an e ective way of probing mixing processes in the interior of solar-type stars and convection is not the only mixing mechanism at work. To understand which mixing mechanisms are occurring in low-mass stars, we test non-standard models, which were calibrated using the Sun, with observations of three open clusters of di erent ages, the Hyades, NGC 752, and M67. We collected all available data, and for the open cluster NGC 752, we redetermine the equivalent widths and the lithium abundances. Two sets of evolutionary models were computed, one grid of only standard models with microscopic di usion and one grid with rotation-induced mixing, at metallicity [Fe/H] = 0.13, 0.0, and 0.01 dex, respectively, using the Toulouse-Geneva evolution code. We compare observations with models in a color–magnitude diagram for each cluster to infer a cluster age and a stellar mass for each cluster member. Then, for each cluster we analyze the lithium abundance of each star as a function of mass. The data for the open clusters Hyades, NGC 752, and M67, are compatible with lithium abundance being a function of both age and mass for stars in these clusters. Our models with meridional circulation qualitatively reproduce the general trend of lithium abundance evolution as a function of stellar mass in all three clusters. This study points out the importance of mass dependence in the evolution of lithium abundance as a function of age. Comparison between models with and without rotation-induced mixing shows that the inclusion of meridional circulation is essential to account for lithium depletion in low-mass stars. However, our results suggest that other mechanisms should be included to explain the Li-dip and the lithium dispersion in low-mass starsLithium abundances in open clusters provide an e ective way of probing mixing processes in the interior of solar-type stars and convection is not the only mixing mechanism at work. To understand which mixing mechanisms are occurring in low-mass stars, we test non-standard models, which were calibrated using the Sun, with observations of three open clusters of di erent ages, the Hyades, NGC 752, and M67. We collected all available data, and for the open cluster NGC 752, we redetermine the equivalent widths and the lithium abundances. Two sets of evolutionary models were computed, one grid of only standard models with microscopic di usion and one grid with rotation-induced mixing, at metallicity [Fe/H] = 0.13, 0.0, and 0.01 dex, respectively, using the Toulouse-Geneva evolution code. We compare observations with models in a color–magnitude diagram for each cluster to infer a cluster age and a stellar mass for each cluster member. Then, for each cluster we analyze the lithium abundance of each star as a function of mass. The data for the open clusters Hyades, NGC 752, and M67, are compatible with lithium abundance being a function of both age and mass for stars in these clusters. Our models with meridional circulation qualitatively reproduce the general trend of lithium abundance evolution as a function of stellar mass in all three clusters. This study points out the importance of mass dependence in the evolution of lithium abundance as a function of age. Comparison between models with and without rotation-induced mixing shows that the inclusion of meridional circulation is essential to account for lithium depletion in low-mass stars. However, our results suggest that other mechanisms should be included to explain the Li-dip and the lithium dispersion in low-mass starsEDP SciencesStars - fundamental parametersStars - abundanceStars - evolutionStars - interiorsStars - solar typeMass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67info:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/articleengreponame:Repositório Institucional da UFRNinstname:Universidade Federal do Rio Grande do Norte (UFRN)instacron:UFRNinfo:eu-repo/semantics/openAccessORIGINALMassEffectOnTheLithiumabundanceEvolutionOfOpenClusters_2016.pdfMassEffectOnTheLithiumabundanceEvolutionOfOpenClusters_2016.pdfArtigoapplication/pdf588268https://repositorio.ufrn.br/bitstream/123456789/29048/1/MassEffectOnTheLithiumabundanceEvolutionOfOpenClusters_2016.pdf241a8b70e937c381b48d9b0c6b6fb694MD51LICENSElicense.txtlicense.txttext/plain; charset=utf-81484https://repositorio.ufrn.br/bitstream/123456789/29048/2/license.txte9597aa2854d128fd968be5edc8a28d9MD52TEXTMassEffectOnTheLithiumabundanceEvolutionOfOpenClusters_2016.pdf.txtMassEffectOnTheLithiumabundanceEvolutionOfOpenClusters_2016.pdf.txtExtracted texttext/plain67626https://repositorio.ufrn.br/bitstream/123456789/29048/3/MassEffectOnTheLithiumabundanceEvolutionOfOpenClusters_2016.pdf.txt2f496180bc057916fde9ca28c480fbd6MD53THUMBNAILMassEffectOnTheLithiumabundanceEvolutionOfOpenClusters_2016.pdf.jpgMassEffectOnTheLithiumabundanceEvolutionOfOpenClusters_2016.pdf.jpgGenerated Thumbnailimage/jpeg1726https://repositorio.ufrn.br/bitstream/123456789/29048/4/MassEffectOnTheLithiumabundanceEvolutionOfOpenClusters_2016.pdf.jpgf8423caf2571347bc75476ce3e2fa2dfMD54123456789/290482020-05-24 06:21:29.467oai:https://repositorio.ufrn.br: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Repositório de PublicaçõesPUBhttp://repositorio.ufrn.br/oai/opendoar:2020-05-24T09:21:29Repositório Institucional da UFRN - Universidade Federal do Rio Grande do Norte (UFRN)false |
| dc.title.pt_BR.fl_str_mv |
Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67 |
| title |
Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67 |
| spellingShingle |
Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67 Castro, M. Stars - fundamental parameters Stars - abundance Stars - evolution Stars - interiors Stars - solar type |
| title_short |
Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67 |
| title_full |
Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67 |
| title_fullStr |
Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67 |
| title_full_unstemmed |
Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67 |
| title_sort |
Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67 |
| author |
Castro, M. |
| author_facet |
Castro, M. Duarte, T. Pace, G. Nascimento Júnior, José Dias do |
| author_role |
author |
| author2 |
Duarte, T. Pace, G. Nascimento Júnior, José Dias do |
| author2_role |
author author author |
| dc.contributor.author.fl_str_mv |
Castro, M. Duarte, T. Pace, G. Nascimento Júnior, José Dias do |
| dc.subject.por.fl_str_mv |
Stars - fundamental parameters Stars - abundance Stars - evolution Stars - interiors Stars - solar type |
| topic |
Stars - fundamental parameters Stars - abundance Stars - evolution Stars - interiors Stars - solar type |
| description |
Lithium abundances in open clusters provide an e ective way of probing mixing processes in the interior of solar-type stars and convection is not the only mixing mechanism at work. To understand which mixing mechanisms are occurring in low-mass stars, we test non-standard models, which were calibrated using the Sun, with observations of three open clusters of di erent ages, the Hyades, NGC 752, and M67. We collected all available data, and for the open cluster NGC 752, we redetermine the equivalent widths and the lithium abundances. Two sets of evolutionary models were computed, one grid of only standard models with microscopic di usion and one grid with rotation-induced mixing, at metallicity [Fe/H] = 0.13, 0.0, and 0.01 dex, respectively, using the Toulouse-Geneva evolution code. We compare observations with models in a color–magnitude diagram for each cluster to infer a cluster age and a stellar mass for each cluster member. Then, for each cluster we analyze the lithium abundance of each star as a function of mass. The data for the open clusters Hyades, NGC 752, and M67, are compatible with lithium abundance being a function of both age and mass for stars in these clusters. Our models with meridional circulation qualitatively reproduce the general trend of lithium abundance evolution as a function of stellar mass in all three clusters. This study points out the importance of mass dependence in the evolution of lithium abundance as a function of age. Comparison between models with and without rotation-induced mixing shows that the inclusion of meridional circulation is essential to account for lithium depletion in low-mass stars. However, our results suggest that other mechanisms should be included to explain the Li-dip and the lithium dispersion in low-mass stars |
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2016 |
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2016-03-12 |
| dc.date.accessioned.fl_str_mv |
2020-05-21T17:57:58Z |
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2020-05-21T17:57:58Z |
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info:eu-repo/semantics/publishedVersion |
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info:eu-repo/semantics/article |
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CASTRO, M.; DUARTE, T.; PACE, G.; NASCIMENTO JUNIOR, J. D. do. Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67: Hyades, NGC 752, and M 67. Astronomy & Astrophysics, [s.l.], v. 590, p. A94, 20 maio 2016. Disponível em: http://dx.doi.org/10.1051/0004-6361/201527583. Acesso em: 14 mai. 2020. |
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https://repositorio.ufrn.br/jspui/handle/123456789/29048 |
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1678-765X |
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10.1051/0004-6361/201527583 |
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CASTRO, M.; DUARTE, T.; PACE, G.; NASCIMENTO JUNIOR, J. D. do. Mass effect on the lithium abundance evolution of open clusters: Hyades, NGC 752, and M67: Hyades, NGC 752, and M 67. Astronomy & Astrophysics, [s.l.], v. 590, p. A94, 20 maio 2016. Disponível em: http://dx.doi.org/10.1051/0004-6361/201527583. Acesso em: 14 mai. 2020. 1678-765X 10.1051/0004-6361/201527583 |
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EDP Sciences |
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