The First Chemical Census the Milky Way's Nuclear Star Cluster

TL;DR

This study presents the first detailed chemical abundance analysis of stars in the Milky Way's Nuclear Star Cluster, revealing its chemical similarities to the inner bulge and inner disk, and highlighting unique Na enrichment.

Contribution

It provides the first comprehensive chemical census of the NSC using near-IR spectroscopy, expanding the number of studied elements and offering new insights into its formation and evolution.

Findings

NSC element trends follow inner bulge and disk patterns

Higher Na abundances observed in NSC compared to inner bulge

Chemical signatures suggest shared evolutionary history with inner Galaxy

Abstract

An important step in understanding the formation and evolution of the Nuclear Star Cluster (NSC) is to investigate its chemistry and chemical evolution. Additionally, exploring the relationship of the NSC to the other structures in the Galactic Center and the Milky Way disks is of great interest. Extreme optical extinction has previously prevented optical studies, but near-IR high-resolution spectroscopy is now possible. Here, we present a detailed chemical abundance analysis of 19 elements - more than four times as many as previously published - for 9 stars in the NSC of the Milky Way, observed with the IGRINS spectrometer on the Gemini South telescope. This study provides new, crucial observational evidence to shed light on the origin of the NSC. We demonstrate that it is possible to probe a variety of nucleosynthetic channels, reflecting different chemical evolution timescales. Our findings reveal that the NSC trends for the elements F, Mg, Al, Si, S, K, Ca, Ti, Cr, Mn, Co, Ni, Cu, and Zn, as well as the s-process elements Ba, Ce, Nd, and Yb, generally follow the inner bulge trends within uncertainties. This suggests a likely shared evolutionary history and our results indicate that the NSC population is consistent with the chemical sequence observed in the inner Galaxy (the inner-disk sequence). However, we identify a significant and unexplained difference in the form of higher Na abundances in the NSC compared to the inner-bulge. This is also observed in few Galactic globular clusters, and may suggest a common enrichment process at work in all these systems.