Stragglers of the thick disc

Cerqui, V.; Haywood, M.; Di Matteo, P.; Katz, D.; Royer, F.

doi:10.1051/0004-6361/202346334

A&A

2023

DOI: 10.1051/0004-6361/202346334

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Stragglers of the thick disc

V. Cerqui,

M. Haywood,

P. Di Matteo

et al.

Abstract: Young alpha-rich (YAR) stars have been detected in the past as outliers to the local age − [α/Fe] relation. These objects are enhanced in α-elements, but they are apparently younger than typical thick disc stars. Here, we study the global kinematics and chemical properties of YAR giant stars in the APOGEE DR17 survey and show that they have properties similar to those of the standard thick disc stellar population. This leads us to conclude that YAR are rejuvenated thick disc objects, and the most likely explan… Show more

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2024

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Cited by 6 publications

References 48 publications

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K2 results for “young” α-rich stars in the Galaxy

Grisoni,

Chiappini,

Miglio

et al. 2024

A&A

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The origin of apparently young alpha -rich stars in the Galaxy is still a matter of debate in Galactic archaeology, whether they are genuinely young or might be products of binary evolution, and mergers or mass accretion. Our aim is to shed light on the nature of young alpha -rich stars in the Milky Way by studying their distribution in the Galaxy thanks to an unprecedented sample of giant stars that cover different Galactic regions and have precise asteroseismic ages, and chemical and kinematic measurements. We analyzed a new sample of sim 6000 stars with precise ages coming from asteroseismology. Our sample combines the global asteroseismic parameters measured from light curves obtained by the K2 mission with stellar parameters and chemical abundances obtained from APOGEE DR17 and GALAH DR3, then cross-matched with Gaia DR3. We define our sample of young alpha -rich stars and study their chemical, kinematic, and age properties. We investigated young alpha -rich stars in different parts of the Galaxy and we find that the fraction of young alpha -rich stars remains constant with respect to the number of high-alpha stars at $ Furthermore, young alpha -rich stars have kinematic and chemical properties similar to high-alpha stars, except for C/N ratios. Thanks to our new K2 sample, we conclude that young alpha -rich stars have similar occurrence rates in different parts of the Galaxy, and that they share properties similar to the normal high-alpha population, except for C/N ratios. This suggests that these stars are not genuinely young, but are products of binary evolution, and mergers or mass accretion. Under that assumption, we find the fraction of these stars in the field to be similar to that found recently in clusters. This suggests that sim 10$<!PCT!>$ of the low-alpha field stars could also have their ages underestimated by asteroseismology. This should be kept in mind when using asteroseismic ages to interpret results in Galactic archaeology.

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K2 results for “young” α-rich stars in the Galaxy

Grisoni,

Chiappini,

Miglio

et al. 2024

A&A

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Timing the Milky Way bar formation and the accompanying radial migration episode

Haywood,

Khoperskov,

Cerqui

et al. 2024

A&A

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We derived the metallicity profile of the Milky Way low-alpha disc population from 2 to 20 kpc from the Galactic centre in 1 Gyr age bins using the astroNN catalogue, and we show that it is highly structured, with a plateau between 4 and 7 kpc and a break at 10-12 kpc. We argue that these features result from the two main bar resonances, the corotation and the outer Lindblad resonance (OLR), respectively. We show that the break in the metallicity profile is most visible in stars having 7-8 Gyr, reaching an amplitude of about 0.4 dex, and it is the signpost of the position of the bar OLR. The bar formation was accompanied by an episode of radial migration triggered by it slowing down and it is responsible for spreading old metal-rich stars up to the OLR. The data show that the slowdown of the bar ended 6-7 Gyr ago. Based on numerical simulations that reproduce well the characteristic break observed in the metallicity profile, we argue that this implies that the bar formed in our Galaxy 8-10 Gyr ago. Analysis of the metallicity distribution as a function of radius shows no evidence of significant systematic outward radial migration after this first episode. We argue that the variation of the metallicity dispersion as a function of the guiding radius is dominated by the migration triggered by the bar, but also that the libration of orbits around the bar resonances induces a mixing that may have a significant impact on the observed metallicity dispersion. In contrast, the absence of a break in the metallicity profile of populations younger than sim 6 Gyr and the flattening of the gradient at younger ages is interpreted as evidence that the strength of the bar has decreased, loosening its barrier effect and allowing the gas and metals on both sides of the OLR to mix, erasing the break. Beyond the OLR, stars younger than 7 Gyr show very small metallicity dispersion, suggesting that no or limited mixing induced by the spiral arms has occurred in the outer disc.

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The accreted galaxy: An overview of TESS metal-poor accreted star candidates

de Brito Silva,

Jofré,

Worley

et al. 2024

A&A

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The Milky Way is a mosaic of stars from different origins. In particular, metal-poor accreted star candidates offer a unique opportunity to better understand the accretion history of the Milky Way. In this work, we aim to explore the assembly history of the Milky Way by investigating accreted stars in terms of their ages, dynamical properties, and chemical abundances. We also aim to better characterize the impact of incorporating asteroseismic information on age and chemical abundance calculations of metal-poor accreted stars for which TESS data are available. In this study, we conducted an in-depth examination of 30 metal-poor accreted star candidates using TESS and Gaia data as well as MIKE spectra. We find satisfactory agreement between seismic surface gravity ($ g$) values and values obtained using spectroscopy, demonstrating the reliability of spectroscopic data produced by our methodology. We find that while age determination is highly dependent on the $ g$ and asteroseismic information used, the overall chemical abundance distributions are similar for different $ g$. However, we find that calcium (Ca) abundances are more sensitive to the adopted $ g$. Our study reveals that the majority of our stars have properties that are compatible with those reported for the Gaia -Sausage-Enceladus, with a minority of stars that might be associated with Splash. We find an age distribution with a median of $11.3_ $ Gyr when including asteroseismic information. Regarding some key chemical signatures, we note that these stars are metal poor ( Fe/H ) < -0.8), alpha rich ( alpha /Fe

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Stragglers of the thick disc

Cited by 6 publications

References 48 publications

K2 results for “young” α-rich stars in the Galaxy

K2 results for “young” α-rich stars in the Galaxy

Timing the Milky Way bar formation and the accompanying radial migration episode

The accreted galaxy: An overview of TESS metal-poor accreted star candidates

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