The VISCACHA survey -- VII. Assembly history of the Magellanic Bridge and SMC Wing from star clusters

The formation scenario of the Magellanic Bridge during an encounter between the Large and Small Magellanic Clouds $\sim200\,$Myr ago, as proposed by $N$-body models, would be imprinted in the chemical enrichment and kinematics of its stars, and sites of ongoing star formation along its extension...

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Veröffentlicht in:	arXiv.org 2023-06
Hauptverfasser:	Oliveira, R A P, Maia, F F S, Barbuy, B, Dias, B, J F C Santos Jr, Souza, S O, Kerber, L O, Bica, E, Sanmartim, D, Quint, B, Fraga, L, Armond, T, Minniti, D, Parisi, M C, O J Katime Santrich, Angelo, M S, Pérez-Villegas, A, De Bórtoli, B J
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Sprache:	eng
Schlagworte:	Adaptive optics Iron Kinematics Magellanic clouds Metallicity Physics - Astrophysics of Galaxies Physics - Solar and Stellar Astrophysics Star & galaxy formation Star clusters Star formation Stellar mass Structural analysis
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creator	Oliveira, R A P Maia, F F S Barbuy, B Dias, B J F C Santos Jr Souza, S O Kerber, L O Bica, E Sanmartim, D Quint, B Fraga, L Armond, T Minniti, D Parisi, M C O J Katime Santrich Angelo, M S Pérez-Villegas, A De Bórtoli, B J
description	The formation scenario of the Magellanic Bridge during an encounter between the Large and Small Magellanic Clouds $\sim200\,$Myr ago, as proposed by $N$-body models, would be imprinted in the chemical enrichment and kinematics of its stars, and sites of ongoing star formation along its extension. We present an analysis of 33 Bridge star clusters using photometry obtained with the SOAR 4-m telescope equipped with adaptive optics for the VISCACHA survey. We performed a membership selection and derived self-consistent ages, metallicities, distances and reddening values via statistical isochrone fitting, as well as tidal radii and integrated masses from structure analysis. Two groups are clearly detected: 13 well-studied clusters older than the Bridge, with $0.5-6.8\,$Gyr and $\rm{[Fe/H]}-0.5\,$dex, probably formed in-situ. The old clusters follow the overall age and metallicity gradients of the SMC, whereas the younger ones are uniformly distributed along the Bridge. The main results are as follows: $(i)$ we derive ages and metallicities for the first time for 9 and 18 clusters, respectively; $(ii)$ we detect two metallicity dips in the age-metallicity relation of the Bridge at $\sim 200\,$Myr and $1.5\,$Gyr ago for the first time, possibly chemical signatures of the formation of the Bridge and Magellanic Stream; $(iii)$ we estimate a minimum stellar mass for the Bridge of $3-5 \times 10^5\,M_\odot$; $(iv)$ we confirm that all the young Bridge clusters at $\rm{RA} < 3^h$ are metal-rich $\rm{[Fe/H]} \sim -0.4\,$dex.
doi_str_mv	10.48550/arxiv.2306.05503
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We present an analysis of 33 Bridge star clusters using photometry obtained with the SOAR 4-m telescope equipped with adaptive optics for the VISCACHA survey. We performed a membership selection and derived self-consistent ages, metallicities, distances and reddening values via statistical isochrone fitting, as well as tidal radii and integrated masses from structure analysis. Two groups are clearly detected: 13 well-studied clusters older than the Bridge, with $0.5-6.8\,$Gyr and $\rm{[Fe/H]}<-0.6\,$dex; and 15 clusters with $< 200\,$Myr and $\rm{[Fe/H]}>-0.5\,$dex, probably formed in-situ. The old clusters follow the overall age and metallicity gradients of the SMC, whereas the younger ones are uniformly distributed along the Bridge. 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Assembly history of the Magellanic Bridge and SMC Wing from star clusters</title><title>arXiv.org</title><description>The formation scenario of the Magellanic Bridge during an encounter between the Large and Small Magellanic Clouds $\sim200\,$Myr ago, as proposed by $N$-body models, would be imprinted in the chemical enrichment and kinematics of its stars, and sites of ongoing star formation along its extension. We present an analysis of 33 Bridge star clusters using photometry obtained with the SOAR 4-m telescope equipped with adaptive optics for the VISCACHA survey. We performed a membership selection and derived self-consistent ages, metallicities, distances and reddening values via statistical isochrone fitting, as well as tidal radii and integrated masses from structure analysis. 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Assembly history of the Magellanic Bridge and SMC Wing from star clusters</atitle><jtitle>arXiv.org</jtitle><date>2023-06-08</date><risdate>2023</risdate><eissn>2331-8422</eissn><abstract>The formation scenario of the Magellanic Bridge during an encounter between the Large and Small Magellanic Clouds $\sim200\,$Myr ago, as proposed by $N$-body models, would be imprinted in the chemical enrichment and kinematics of its stars, and sites of ongoing star formation along its extension. We present an analysis of 33 Bridge star clusters using photometry obtained with the SOAR 4-m telescope equipped with adaptive optics for the VISCACHA survey. We performed a membership selection and derived self-consistent ages, metallicities, distances and reddening values via statistical isochrone fitting, as well as tidal radii and integrated masses from structure analysis. Two groups are clearly detected: 13 well-studied clusters older than the Bridge, with $0.5-6.8\,$Gyr and $\rm{[Fe/H]}<-0.6\,$dex; and 15 clusters with $< 200\,$Myr and $\rm{[Fe/H]}>-0.5\,$dex, probably formed in-situ. The old clusters follow the overall age and metallicity gradients of the SMC, whereas the younger ones are uniformly distributed along the Bridge. 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subjects	Adaptive optics Iron Kinematics Magellanic clouds Metallicity Physics - Astrophysics of Galaxies Physics - Solar and Stellar Astrophysics Star & galaxy formation Star clusters Star formation Stellar mass Structural analysis
title	The VISCACHA survey -- VII. Assembly history of the Magellanic Bridge and SMC Wing from star clusters
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