Age of FGK Dwarfs Observed with LAMOST and GALAH: Considering the Oxygen Enhancement

Varying oxygen abundance could impact modeling-inferred ages. This work aims to estimate the ages of dwarfs considering observed oxygen abundance. To characterize 67,503 LAMOST and 4006 GALAH FGK-type dwarf stars, we construct a grid of stellar models, which take into account oxygen abundance as an...

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Veröffentlicht in:	The Astrophysical journal. Supplement series 2023-09, Vol.268 (1), p.29
Hauptverfasser:	Sun, Tiancheng, Ge, Zhishuai, Chen, Xunzhou, Bi, Shaolan, Li, Tanda, Zhang, Xianfei, Li, Yaguang, Wu, Yaqian, Bird, Sarah A., Ferguson, J. W., Zhou, Jianzhao, Ye, Lifei, Long, Liu, Zhang, Jinghua
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Schlagworte:	Abundance Age differences Astronomical models Chemical properties Chronology Dwarf stars Fundamental parameters of stars Iron Metallicity Milky Way disk Modelling O stars Oxygen Stars Stellar abundances Stellar ages Stellar kinematics Stellar models
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creator	Sun, Tiancheng Ge, Zhishuai Chen, Xunzhou Bi, Shaolan Li, Tanda Zhang, Xianfei Li, Yaguang Wu, Yaqian Bird, Sarah A. Ferguson, J. W. Zhou, Jianzhao Ye, Lifei Long, Liu Zhang, Jinghua
description	Varying oxygen abundance could impact modeling-inferred ages. This work aims to estimate the ages of dwarfs considering observed oxygen abundance. To characterize 67,503 LAMOST and 4006 GALAH FGK-type dwarf stars, we construct a grid of stellar models, which take into account oxygen abundance as an independent model input. Compared with ages determined with commonly used α -enhanced models, we find a difference of ∼9% on average when the observed oxygen abundance is considered. The age differences between the two types of models are correlated to [Fe/H] and [O/ α ], and they are relatively significant on stars with [Fe/H] ≲ −0.6 dex. Generally, varying 0.2 dex in [O/ α ] will alter the age estimates of metal-rich (−0.2 < [Fe/H] < 0.2) stars by ∼10% and relatively metal-poor (−1 < [Fe/H] < −0.2) stars by ∼15%. Of the low-O stars with [Fe/H] < 0.1 dex and [O/ α ] ∼−0.2 dex, many have fractional age differences of ≥ 10% and even reach up to 27%. The fractional age difference of high-O stars with [O/ α ] ∼0.4 dex reaches up to −33% to −42% at [Fe/H] ≲ −0.6 dex. We also analyze the chemical properties of these stars. We find a decreasing trend of [Fe/H] with ages from 7.5–9 Gyr to 5–6.5 Gyr for the stars from the LAMOST and GALAH. The [O/Fe] of these stars increases with decreasing age from 7.5–9 Gyr to 3–4 Gyr, indicating that the younger population is more O rich.
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Generally, varying 0.2 dex in [O/ α ] will alter the age estimates of metal-rich (−0.2 < [Fe/H] < 0.2) stars by ∼10% and relatively metal-poor (−1 < [Fe/H] < −0.2) stars by ∼15%. Of the low-O stars with [Fe/H] < 0.1 dex and [O/ α ] ∼−0.2 dex, many have fractional age differences of ≥ 10% and even reach up to 27%. The fractional age difference of high-O stars with [O/ α ] ∼0.4 dex reaches up to −33% to −42% at [Fe/H] ≲ −0.6 dex. We also analyze the chemical properties of these stars. We find a decreasing trend of [Fe/H] with ages from 7.5–9 Gyr to 5–6.5 Gyr for the stars from the LAMOST and GALAH. 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This work aims to estimate the ages of dwarfs considering observed oxygen abundance. To characterize 67,503 LAMOST and 4006 GALAH FGK-type dwarf stars, we construct a grid of stellar models, which take into account oxygen abundance as an independent model input. Compared with ages determined with commonly used α -enhanced models, we find a difference of ∼9% on average when the observed oxygen abundance is considered. The age differences between the two types of models are correlated to [Fe/H] and [O/ α ], and they are relatively significant on stars with [Fe/H] ≲ −0.6 dex. Generally, varying 0.2 dex in [O/ α ] will alter the age estimates of metal-rich (−0.2 < [Fe/H] < 0.2) stars by ∼10% and relatively metal-poor (−1 < [Fe/H] < −0.2) stars by ∼15%. Of the low-O stars with [Fe/H] < 0.1 dex and [O/ α ] ∼−0.2 dex, many have fractional age differences of ≥ 10% and even reach up to 27%. The fractional age difference of high-O stars with [O/ α ] ∼0.4 dex reaches up to −33% to −42% at [Fe/H] ≲ −0.6 dex. We also analyze the chemical properties of these stars. We find a decreasing trend of [Fe/H] with ages from 7.5–9 Gyr to 5–6.5 Gyr for the stars from the LAMOST and GALAH. The [O/Fe] of these stars increases with decreasing age from 7.5–9 Gyr to 3–4 Gyr, indicating that the younger population is more O rich.</abstract><cop>Saskatoon</cop><pub>The American Astronomical Society</pub><doi>10.3847/1538-4365/ace5b0</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0002-2614-5959</orcidid><orcidid>https://orcid.org/0000-0002-3672-2166</orcidid><orcidid>https://orcid.org/0000-0002-7642-7583</orcidid><orcidid>https://orcid.org/0000-0003-0795-4854</orcidid><orcidid>https://orcid.org/0000-0001-6396-2563</orcidid><orcidid>https://orcid.org/0000-0003-3957-9067</orcidid><orcidid>https://orcid.org/0000-0003-3020-4437</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Abundance Age differences Astronomical models Chemical properties Chronology Dwarf stars Fundamental parameters of stars Iron Metallicity Milky Way disk Modelling O stars Oxygen Stars Stellar abundances Stellar ages Stellar kinematics Stellar models
title	Age of FGK Dwarfs Observed with LAMOST and GALAH: Considering the Oxygen Enhancement
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