The Gaia-ESO survey: Mapping the shape and evolution of the radial abundance gradients with open clusters

被引：21

作者：

Magrini, L. ^{[1
]}

Viscasillas Vazquez, Carlos ^{[2
]}

Spina, L. ^{[3
]}

Randich, S. ^{[1
]}

Romano, D. ^{[4
]}

Franciosini, E. ^{[1
]}

Recio-Blanco, A. ^{[5
]}

Nordlander, T. ^{[6
,7
]}

D'Orazi, V. ^{[3
,8
]}

Baratella, M. ^{[9
]}

Smiljanic, R. ^{[10
]}

Dantas, M. L. L. ^{[10
]}

Pasquini, L. ^{[11
]}

Spitoni, E. ^{[5
]}

Casali, G. ^{[4
,12
]}

Van der Swaelmen, M. ^{[1
]}

Bensby, T. ^{[13
]}

Stonkute, E. ^{[2
]}

Feltzing, S. ^{[13
]}

Sacco, G. G. ^{[1
]}

Bragaglia, A. ^{[4
]}

Pancino, E. ^{[1
,14
]}

Heiter, U. ^{[15
]}

Biazzo, K. ^{[16
]}

Gilmore, G. ^{[17
]}

Bergemann, M. ^{[18
,19
]}

Tautvaisiene, G. ^{[2
]}

Worley, C. ^{[17
]}

Hourihane, A. ^{[17
]}

Gonneau, A. ^{[17
]}

Morbidelli, L. ^{[1
]}

机构：

[1] INAF Osservatorio Astrofis Arcetri, Largo E Fermi 5, I-50125 Florence, Italy

[2] Vilnius Univ, Inst Theoret Phys & Astron, Sauletekio Av 3, LT-10257 Vilnius, Lithuania

[3] INAF Padova Observ, Vicolo Osservatorio 5, I-35122 Padua, Italy

[4] INAF Osservatorio Astrofis & Sci Spazio Bologna, Via Gobetti 93-3, I-40129 Bologna, Italy

[5] Univ Cote dAzur, CNRS, Observ Cote dAzur, Lab Lagrange, F-06304 Nice, France

[6] Australian Natl Univ, Res Sch Astron & Astrophys, Canberra, ACT 2611, Australia

[7] ARC Ctr Excellence Astron Three Dimens ASTRO 3D, Canberra, ACT 2611, Australia

[8] Univ Roma Tor Vergata, Dipartimento Fis, Via Ric Sci 1, I-00133 Rome, Italy

[9] Leibniz Inst Astrophys Potsdam AIP, Sternwarte 16, D-14482 Potsdam, Germany

[10] Polish Acad Sci, Nicolaus Copernicus Astron Ctr, Ul Bartycka 18, PL-00716 Warsaw, Poland

[11] ESO, Karl Schwarzschild Str 2, D-85748 Garching, Germany

[12] Univ Bologna, Dipartimento Fis & Astron, Via Gobetti 93-2, I-40129 Bologna, Italy

[13] Lund Observ, Dept Astron & Theoret Phys, Box 43, S-22100 Lund, Sweden

[14] Agenzia Spaziale Italiana, Space Sci Data Ctr, Via Politecn SNC, I-00133 Rome, Italy

[15] Uppsala Univ, Dept Phys & Astron, Observat Astrophys, Box 516, S-75120 Uppsala, Sweden

[16] INAF Rome Observ, Via Frascati 33, Monte Porzio Catone, RM, Italy

[17] Univ Cambridge, Inst Astron, Madingley Rd, Cambridge CB3 0HA, England

[18] Max Planck Inst Astron, Konigstuhl 17, D-69117 Heidelberg, Germany

[19] Univ Copenhagen, Niels Bohr Inst, Niels Bohr Int Acad, Blegdamsvej 17, DK-2100 Copenhagen, Denmark

来源：

ASTRONOMY & ASTROPHYSICS | 2023年 / 669卷

基金：

瑞典研究理事会; 欧洲研究理事会; 英国科学技术设施理事会;

关键词：

stars: abundances; stars: evolution; open clusters and associations: general; Galaxy: evolution; OLD OPEN CLUSTERS; GALACTIC METALLICITY GRADIENT; POPULATION ASTROPHYSICS SPA; YOUNG OPEN CLUSTERS; CHEMICAL EVOLUTION; ELEMENT ABUNDANCES; MILKY-WAY; ATMOSPHERIC PARAMETERS; PLANETARY-NEBULAE; IRON ABUNDANCES;

D O I：

10.1051/0004-6361/202244957

中图分类号：

P1 [天文学];

学科分类号：

0704 ;

摘要：

Context. The spatial distribution of elemental abundances and their time evolution are among the major constraints to disentangling the scenarios of formation and evolution of the Galaxy. Aims. In this paper we used the sample of open clusters available in the final release of the Gaia-ESO survey to trace the Galactic radial abundance and abundance-to-iron ratio gradients, and their time evolution. Methods. We selected member stars in 62 open clusters, with ages from 0.1 to about 7 Gyr, located in the Galactic thin disc at galactocentric radii (R-GC) from about 6 to 21 kpc. We analysed the shape of the resulting [Fe/H] gradient, the average gradients [El/H] and [El/Fe] combining elements belonging to four different nucleosynthesis channels, and their individual abundance and abundance ratio gradients. We also investigated the time evolution of the gradients dividing open clusters in three age bins. Results. The [Fe/H] gradient has a slope of -0.054 dex kpc(-1). It can be better approximated with a two-slope shape, steeper for R-GC <= 11.2 kpc and flatter in the outer regions. We saw different behaviours for elements belonging to different channels. For the time evolution of the gradient, we found that the youngest clusters (age < 1 Gyr) in the inner disc have lower metallicity than their older counterparts and that they outline a flatter gradient. We considered some possible explanations, including the effects of gas inflow and migration. We suggest that the most likely one may be related to a bias introduced by the standard spectroscopic analysis producing lower metallicities in the analysis of low-gravity stars. Conclusions. To delineate the shape of the 'true' gradient, we should most likely limit our analysis to stars with low surface gravity log g> 2.5 and microturbulent parameter xi< 1.8 km s(-1). Based on this reduced sample, we can conclude that the gradient has minimally evolved over the time-frame outlined by the open clusters, indicating a slow and stationary formation of the thin disc over the last 3 Gyr. We found a secondary role of cluster migration in shaping the gradient, with a more prominent role of migration for the oldest clusters.

引用

页数：25

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