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Main Authors: Pagnini, G., Di Matteo, P., Haywood, M., Bianchini, P., Ferrone, S., Mastrobuono-Battisti, A., Agertz, O., Khoperskov, S., Renaud, F., Ryde, N.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.13990
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author Pagnini, G.
Di Matteo, P.
Haywood, M.
Bianchini, P.
Ferrone, S.
Mastrobuono-Battisti, A.
Agertz, O.
Khoperskov, S.
Renaud, F.
Ryde, N.
author_facet Pagnini, G.
Di Matteo, P.
Haywood, M.
Bianchini, P.
Ferrone, S.
Mastrobuono-Battisti, A.
Agertz, O.
Khoperskov, S.
Renaud, F.
Ryde, N.
contents Globular clusters (GCs) and their associated stellar streams are key tracers of the hierarchical assembly history of the Milky Way. $ω$ Centauri, the most massive and chemically complex GC in the Galaxy, is widely believed to be the remnant nucleus of an accreted dwarf galaxy. Identifying its associated debris and that of chemically similar clusters can provide important constraints on the nature of this progenitor system. We aim to identify field stars that are chemically and kinematically linked to $ω$ Cen and to a group of globular clusters associated with the Nephele accretion event. We analyse APOGEE DR17 data using a Gaussian Mixture Model (GMM) in a 8-dimensional chemical space to identify field stars whose abundances match those of $ω$ Cen. We then compute the orbital energy and angular momentum of these stars and apply a second GMM, calibrated on simulations from the e-TidalGCs project, to determine kinematic compatibility with the predicted streams of $ω$ Cen and the associated Nephele GCs. We identify 470 stars chemically compatible with $ω$ Cen, of which 58 are also Al-rich, consistent with second-generation stars found in GCs. Of these, 6 stars show kinematics consistent with the predicted $ω$ Cen stream, and additional stars are linked to the tidal streams of NGC 6205, NGC 6254, NGC 6273, NGC 6656, and NGC 6809. We also find overlap in chemical and kinematic properties between Nephele stars and the Gaia Sausage-Enceladus population. Our findings indicate stellar debris linked to $ω$ Cen and its candidate globular cluster family, consistent with a shared, now-disrupted galactic progenitor. Despite residual uncertainties from disc contamination and limited sky coverage, the results demonstrate the effectiveness of combined chemical and dynamical analyses in uncovering relics of past accretion events in the inner Galaxy.
format Preprint
id arxiv_https___arxiv_org_abs_2510_13990
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Nephele ecosystem: stars, globular clusters, and stellar streams associated with the progenitor galaxy of $ω$ Centauri
Pagnini, G.
Di Matteo, P.
Haywood, M.
Bianchini, P.
Ferrone, S.
Mastrobuono-Battisti, A.
Agertz, O.
Khoperskov, S.
Renaud, F.
Ryde, N.
Astrophysics of Galaxies
Globular clusters (GCs) and their associated stellar streams are key tracers of the hierarchical assembly history of the Milky Way. $ω$ Centauri, the most massive and chemically complex GC in the Galaxy, is widely believed to be the remnant nucleus of an accreted dwarf galaxy. Identifying its associated debris and that of chemically similar clusters can provide important constraints on the nature of this progenitor system. We aim to identify field stars that are chemically and kinematically linked to $ω$ Cen and to a group of globular clusters associated with the Nephele accretion event. We analyse APOGEE DR17 data using a Gaussian Mixture Model (GMM) in a 8-dimensional chemical space to identify field stars whose abundances match those of $ω$ Cen. We then compute the orbital energy and angular momentum of these stars and apply a second GMM, calibrated on simulations from the e-TidalGCs project, to determine kinematic compatibility with the predicted streams of $ω$ Cen and the associated Nephele GCs. We identify 470 stars chemically compatible with $ω$ Cen, of which 58 are also Al-rich, consistent with second-generation stars found in GCs. Of these, 6 stars show kinematics consistent with the predicted $ω$ Cen stream, and additional stars are linked to the tidal streams of NGC 6205, NGC 6254, NGC 6273, NGC 6656, and NGC 6809. We also find overlap in chemical and kinematic properties between Nephele stars and the Gaia Sausage-Enceladus population. Our findings indicate stellar debris linked to $ω$ Cen and its candidate globular cluster family, consistent with a shared, now-disrupted galactic progenitor. Despite residual uncertainties from disc contamination and limited sky coverage, the results demonstrate the effectiveness of combined chemical and dynamical analyses in uncovering relics of past accretion events in the inner Galaxy.
title The Nephele ecosystem: stars, globular clusters, and stellar streams associated with the progenitor galaxy of $ω$ Centauri
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2510.13990