Year 2023,
, 11 - 26, 20.06.2023
Sibel Döner
Serap Ak
,
Özgecan Önal Taş
Olcay Plevne
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The Age-Metallicity Relation in the Solar Neighbourhood
Year 2023,
, 11 - 26, 20.06.2023
Sibel Döner
Serap Ak
,
Özgecan Önal Taş
Olcay Plevne
Abstract
Age-metallicity relation for the Galactic disc is a crucial tool and is used to constrain the Galactic chemical evolution models. We investigated the age-metallicity relation of the Galactic disc using the red giant branch stars in the Solar neighbourhood. The data cover the Galactocentric radius of 7 ≤ 𝑅gc (kpc) ≤ 9.5, but extends up to 4 kpc in height from the Galactic plane. We used kinematic age derived from highly precise astrometric data of Gaia Data Release 2 and element abundance ratios from high-resolution spectroscopic data of APOGEE-2 catalogues. We applied a two-component Gaussian mixture model to chemically separate the programme stars into thin and thick disc populations. The stars in each population are grouped into different distance intervals from the Galactic plane. The mean metal abundances and velocity dispersions of the stars in the groups were calculated and the kinematic ages were determined from their kinematic parameters. We found a steep relation for the thin disc with -0.057±0.007 dex Gyr−1 , and even a steeper value of -0.103±0.009 dex Gyr−1 for the thick disc. These age-metallicity relations along with the prominent differences in age, metallicity, and kinematic behaviours seen from the data, clearly show that it is important to consider the distinct formation scenarios of the Galactic disc components in modelling the Milky Way.
References
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- Ak S., Bilir S., Karaali S., Buser R., Cabrera-Lavers A., 2007a, New Astronomy, 12, 605 google scholar
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- Bilir S., Karaali S., Ak S., Yaz E., Hamzaoglu E., 2006, New Astron omy, 12, 234 google scholar
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- Karaali S., Bilir S., Gökçe E. Y., Plevne O., 2019, Publ. Astron. Soc. Australia, 36, e040 google scholar
- Lin J., Dotter A., Ting Y.-S., Asplund M., 2018, MNRAS, 477, 2966 google scholar
- Lutz T. E., Kelker D. H., 1973, PASP, 85, 573 google scholar
- Majewski S. R., et al., 2017, AJ, 154, 94 google scholar
- Miglio A., et al., 2017, Astronomische Nachrichten, 338, 644 google scholar
- Mihalas D., Binney J., 1981, Galactic astronomy. Structure and kinematics google scholar
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- Minchev I., Chiappini C., Martig M., 2016, Astronomische Nachrichten, 337, 944 google scholar
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- Nissen P. E., Christensen-Dalsgaard J., Mosumgaard J. R., Silva Aguirre V., Spitoni E., Verma K., 2020, A&A, 640, A81 google scholar
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- Twarog B. A., 1980, ApJ, 242, 242 google scholar
- Wielen R., 1977, A&A, 60, 263 google scholar
- Wilson J. C., et al., 2019, PASP, 131, 055001 google scholar
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- Wyse R. F. G., Gilmore G., 1988, AJ, 95, 1404 google scholar
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- Çelebi M., Bilir S., Ak S., Ak T., Bostancı Z. F., Yontan T., 2019, Ap&SS, 364, 172 google scholar
- van Leeuwen F., 2007, A&A, 474, 653 google scholar