# Abundances of Na, Mg, and K in the atmospheres of red giant branch stars   of Galactic globular cluster 47 Tucanae

**Authors:** A. \v{C}erniauskas, A. Ku\v{c}inskas, J. Klevas, D. Prakapavi\v{c}ius,, S. Korotin, P. Bonifacio, H.-G. Ludwig, E. Caffau, and M. Steffen

arXiv: 1704.02751 · 2017-08-02

## TL;DR

This study measures Na, Mg, and K abundances in 32 red giant stars of 47 Tuc to investigate element correlations, finding no significant relations or abundance trends, suggesting K evolution is independent of Na and Mg nucleosynthesis.

## Contribution

First detailed NLTE and 3D corrections applied to K, Na, and Mg abundances in 47 Tuc RGB stars, revealing no element correlations or abundance trends.

## Key findings

- No significant Na-K or Mg-K correlations found.
- Abundance ratios show star-to-star variation but no trend with cluster position.
- K abundance appears uniform across different stellar generations.

## Abstract

We study the abundances of Na, Mg, and K in the atmospheres of 32 RGB stars in the Galactic globular cluster (GGC) 47 Tuc, with the goal to investigate the possible existence of Na-K and Mg-K correlations/anti-correlations, similar to those that were recently discovered in two other GGCs, NGC 2419 and 2808. The abundances of K, Na, and Mg were determined using high-resolution 2df spectra obtained with the AAT. The 1D NLTE abundance estimates were obtained using 1D hydrostatic ATLAS9 model atmospheres and spectral line profiles synthesized with the MULTI package. We also used 3D hydrodynamical CO5BOLD and 1D hydrostatic LHD model atmospheres to compute 3D-1D LTE abundance corrections, $\Delta_{\rm 3D-1D~LTE}$, for the spectral lines of Na, Mg, and K used in our study. These abundance corrections were used to understand the role of convection in the formation of spectral lines, as well as to estimate the differences in the abundances obtained with the 3D hydrodynamical and 1D hydrostatic model atmospheres. The average element-to-iron abundance ratios and their RMS variations due to star-to-star abundance spreads determined in our sample of RGB stars were $\langle{\rm [Na/Fe]}\rangle^{\rm 1D~NLTE}=0.42\pm0.13$, $\langle{\rm [Mg/Fe]}\rangle^{\rm 1D~NLTE}=0.41\pm0.11$, and $\langle{\rm [K/Fe]}\rangle^{\rm 1D~NLTE}=0.05\pm0.14$. We found no statistically significant relations between the abundances of the three elements studied here. Also, there were no abundance trends with the distance from the cluster center, nor any statistically significant relations between the abundance/abundance ratios and absolute radial velocities of individual stars. All these facts suggest the similarity of K abundance in stars that belong to different generations in 47 Tuc which, in turn, may hint that evolution of K in this particular cluster was unrelated to the nucleosynthesis of Na and/or Mg.

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/1704.02751/full.md

## References

69 references — full list in the complete paper: https://tomesphere.com/paper/1704.02751/full.md

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Source: https://tomesphere.com/paper/1704.02751