Measuring helium abundance difference in giants of NGC 2808

Context. Multiple populations have been detected in several globular clusters (GC) that do not display a spread in metallicity. Unusual features of their observed colour.magnitude diagrams (CMD) can be interpreted in terms of differences in the helium content of the stars belonging to the sub-popula...

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Autores principales: Pasquini, L., Mauas, P., Käufl, H.U., Cacciari, C.
Formato: JOUR
Materias:
globular clusters: general
globular clusters: individual: NGC2808
stars: abundances
Appropriate models
Astrophysical parameters
Blue-shifted
Chromospheric lines
Detailed models
Equivalent width
Giant stars
Globular clusters
Globular clusters: general
Helium abundance
High-resolution spectra
Line profiles
Line strength
Metallicities
Non-detection
Optical observations
Quantitative estimates
Stellar evolutions
Sub-populations
Target star
Astrophysics
Calcium
Chromophores
Helium
Sodium
Stars
Iodine
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00046361_v531_n_p_Pasquini
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_00046361_v531_n_p_Pasquini
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spelling todo:paper_00046361_v531_n_p_Pasquini2023-10-03T14:00:35Z Measuring helium abundance difference in giants of NGC 2808 Pasquini, L. Mauas, P. Käufl, H.U. Cacciari, C. globular clusters: general globular clusters: individual: NGC2808 stars: abundances Appropriate models Astrophysical parameters Blue-shifted Chromospheric lines Detailed models Equivalent width Giant stars Globular clusters Globular clusters: general globular clusters: individual: NGC2808 Helium abundance High-resolution spectra Line profiles Line strength Metallicities Non-detection Optical observations Quantitative estimates stars: abundances Stellar evolutions Sub-populations Target star Astrophysics Calcium Chromophores Helium Sodium Stars Iodine Context. Multiple populations have been detected in several globular clusters (GC) that do not display a spread in metallicity. Unusual features of their observed colour.magnitude diagrams (CMD) can be interpreted in terms of differences in the helium content of the stars belonging to the sub-populations. Aims. Even if evidence gathered so far is compelling, differences in He abundance have never been directly observed. We attempt to measure these differences in two giant stars of NGC 2808 with very similar astrophysical parameters but different Na and O abundances, hence that presumably belong to different sub-populations, by directly comparing their He I 10 830 A lines. Methods. The He 10 830 A line forms in the upper chromosphere. Our detailed models derive the chromospheric structure using the Ca II and H¿ chromospheric lines, and simulate the corresponding He I 10 830 line profiles as a function of the helium abundance. We show that, at a given value of He abundance, the He I 10 830 equivalent width cannot significantly change without a corresponding much larger change in the Ca II chromospheric lines. We have used the VLT-CRIRES to obtain high-resolution spectra in the 10 830 A region, and the VLT-UVES to obtain spectra of the Ca II and H¿ lines of our target stars. Results. The two target stars have very similar Ca II and H chromospheric lines, but different appearances in the He region. One line, blueshifted by 17 km s.1 with respect to the He 10 830 rest wavelength, is detected in the spectrum of the Na-rich star, whereas the Na-poor star spectrum is consistent with a non-detection. From a detailed chromospheric modeling, we show that the difference in the spectra is consistent and most closely explained by an He abundance difference between the two stars of δY . 0.17. Our optical observations bracket the infrared ones over a range of about 50 days and we do not observe any substantial variability in the Ca II and H¿ lines. Conclusions. We provide direct evidence of a significant He line strength difference in giant stars of NGC 2808 belonging to different sub-populations, which had been previously detected by other photometric and spectroscopic means. The use of appropriate model chromospheres allows us for the first time to provide an approximate quantitative estimate of this difference, which is clearly consistent with the expected difference in abundance required by the stellar evolution theory to account for the observed peculiarities of this cluster's cmD. © 2011 ESO. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00046361_v531_n_p_Pasquini
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic globular clusters: general
globular clusters: individual: NGC2808
stars: abundances
Appropriate models
Astrophysical parameters
Blue-shifted
Chromospheric lines
Detailed models
Equivalent width
Giant stars
Globular clusters
Globular clusters: general
globular clusters: individual: NGC2808
Helium abundance
High-resolution spectra
Line profiles
Line strength
Metallicities
Non-detection
Optical observations
Quantitative estimates
stars: abundances
Stellar evolutions
Sub-populations
Target star
Astrophysics
Calcium
Chromophores
Helium
Sodium
Stars
Iodine
spellingShingle globular clusters: general
globular clusters: individual: NGC2808
stars: abundances
Appropriate models
Astrophysical parameters
Blue-shifted
Chromospheric lines
Detailed models
Equivalent width
Giant stars
Globular clusters
Globular clusters: general
globular clusters: individual: NGC2808
Helium abundance
High-resolution spectra
Line profiles
Line strength
Metallicities
Non-detection
Optical observations
Quantitative estimates
stars: abundances
Stellar evolutions
Sub-populations
Target star
Astrophysics
Calcium
Chromophores
Helium
Sodium
Stars
Iodine
Pasquini, L.
Mauas, P.
Käufl, H.U.
Cacciari, C.
Measuring helium abundance difference in giants of NGC 2808
topic_facet globular clusters: general
globular clusters: individual: NGC2808
stars: abundances
Appropriate models
Astrophysical parameters
Blue-shifted
Chromospheric lines
Detailed models
Equivalent width
Giant stars
Globular clusters
Globular clusters: general
globular clusters: individual: NGC2808
Helium abundance
High-resolution spectra
Line profiles
Line strength
Metallicities
Non-detection
Optical observations
Quantitative estimates
stars: abundances
Stellar evolutions
Sub-populations
Target star
Astrophysics
Calcium
Chromophores
Helium
Sodium
Stars
Iodine
description Context. Multiple populations have been detected in several globular clusters (GC) that do not display a spread in metallicity. Unusual features of their observed colour.magnitude diagrams (CMD) can be interpreted in terms of differences in the helium content of the stars belonging to the sub-populations. Aims. Even if evidence gathered so far is compelling, differences in He abundance have never been directly observed. We attempt to measure these differences in two giant stars of NGC 2808 with very similar astrophysical parameters but different Na and O abundances, hence that presumably belong to different sub-populations, by directly comparing their He I 10 830 A lines. Methods. The He 10 830 A line forms in the upper chromosphere. Our detailed models derive the chromospheric structure using the Ca II and H¿ chromospheric lines, and simulate the corresponding He I 10 830 line profiles as a function of the helium abundance. We show that, at a given value of He abundance, the He I 10 830 equivalent width cannot significantly change without a corresponding much larger change in the Ca II chromospheric lines. We have used the VLT-CRIRES to obtain high-resolution spectra in the 10 830 A region, and the VLT-UVES to obtain spectra of the Ca II and H¿ lines of our target stars. Results. The two target stars have very similar Ca II and H chromospheric lines, but different appearances in the He region. One line, blueshifted by 17 km s.1 with respect to the He 10 830 rest wavelength, is detected in the spectrum of the Na-rich star, whereas the Na-poor star spectrum is consistent with a non-detection. From a detailed chromospheric modeling, we show that the difference in the spectra is consistent and most closely explained by an He abundance difference between the two stars of δY . 0.17. Our optical observations bracket the infrared ones over a range of about 50 days and we do not observe any substantial variability in the Ca II and H¿ lines. Conclusions. We provide direct evidence of a significant He line strength difference in giant stars of NGC 2808 belonging to different sub-populations, which had been previously detected by other photometric and spectroscopic means. The use of appropriate model chromospheres allows us for the first time to provide an approximate quantitative estimate of this difference, which is clearly consistent with the expected difference in abundance required by the stellar evolution theory to account for the observed peculiarities of this cluster's cmD. © 2011 ESO.
format JOUR
author Pasquini, L.
Mauas, P.
Käufl, H.U.
Cacciari, C.
author_facet Pasquini, L.
Mauas, P.
Käufl, H.U.
Cacciari, C.
author_sort Pasquini, L.
title Measuring helium abundance difference in giants of NGC 2808
title_short Measuring helium abundance difference in giants of NGC 2808
title_full Measuring helium abundance difference in giants of NGC 2808
title_fullStr Measuring helium abundance difference in giants of NGC 2808
title_full_unstemmed Measuring helium abundance difference in giants of NGC 2808
title_sort measuring helium abundance difference in giants of ngc 2808
url http://hdl.handle.net/20.500.12110/paper_00046361_v531_n_p_Pasquini
work_keys_str_mv AT pasquinil measuringheliumabundancedifferenceingiantsofngc2808
AT mauasp measuringheliumabundancedifferenceingiantsofngc2808
AT kauflhu measuringheliumabundancedifferenceingiantsofngc2808
AT cacciaric measuringheliumabundancedifferenceingiantsofngc2808
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