The Extremely Metal Rich Knot of Stars at the Heart of the Galaxy

Hans-Walter Rix; Vedant Chandra; Gail Zasowski; Annalisa Pillepich,; Sergey Khoperskov; Sofia Feltzing; Rosemary F. Wyse; Neige Frankel; Danny; Horta; Juna Kollmeier; Keivan G. Stassun; Melissa Ness; Jonathan C. Bird,; David L. Nidever; Jose G. Fernandez; Jo\~ao A. Amarante; Chervin F. Laporte,; Jianhui Lian

arXiv:2406.01706·astro-ph.GA·June 5, 2024·1 cites

The Extremely Metal Rich Knot of Stars at the Heart of the Galaxy

Hans-Walter Rix, Vedant Chandra, Gail Zasowski, Annalisa Pillepich,, Sergey Khoperskov, Sofia Feltzing, Rosemary F. Wyse, Neige Frankel, Danny, Horta, Juna Kollmeier, Keivan G. Stassun, Melissa Ness, Jonathan C. Bird,, David L. Nidever, Jose G. Fernandez, Jo\~ao A. Amarante

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TL;DR

This study reveals a concentrated, extremely metal-rich stellar knot at the Milky Way's center using Gaia XP spectroscopy, contrasting with simulated galaxy analogs and highlighting complex stellar population distributions.

Contribution

It identifies and characterizes a unique central metal-rich stellar knot in the Milky Way, supported by Gaia data and simulations, revealing its distinct properties and rarity.

Findings

01

The EMR knot is a compact, round, dynamically hot system at the Galaxy's center.

02

Only about 0.1% of the most metal-rich stars are in this central knot.

03

The Milky Way's EMR stars are more confined than in typical simulated galaxies.

Abstract

We show with Gaia XP spectroscopy that extremely metal-rich stars in the Milky Way (EMR; $[M / H]_{X P} > 0.5$ ) - but only those - are largely confined to a tight "knot" at the center of the Galaxy. This EMR knot is round in projection, has a fairly abrupt edge near $\sim 1.5$ kpc, and is a dynamically hot system. This central knot also contains very metal-rich (VMR; $+ 0.2 \leq [M / H]_{X P} \leq + 0.4$ ) stars. However, in contrast to EMR stars, the bulk of VMR stars form an extended, highly flattened distribution in the inner Galaxy ( $R_{GC} ≲ 5$ kpc). We draw on TNG50 simulations of Milky Way analogs for context and find that compact, metal-rich knots confined to $< 1.5$ kpc are a universal feature. In typical simulated analogs, the top 5-10% most metal-rich stars are confined to a central knot; however, in our Milky Way data this fraction is only 0.1%. Dust-penetrating wide-area…

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Taxonomy

TopicsHistory and Developments in Astronomy · Historical Astronomy and Related Studies