C and N abundances of MS and SGB stars in NGC 1851

C. Lardo (1); A. P. Milone (2,3); A. F. Marino (4); A. Mucciarelli; (1); E. Pancino (5); M. Zoccali (5,6); M. Rejkuba (7); R. Carrera (2,3) and; O. Gonzalez (7) ((1) Department of Astronomy; University of Bologna; Italy,; (2) Istituto de Astrof\`i sica de Canarias; La Laguna; Tenerife; Spain; (3); Department of Astrophysics; University of La Laguna; Tenerife; Spain; (4); Max-Planck-Institut f\"ur Astrophysik; Garching b. M\"unchen; Germany; (5); INAF-Osservatorio Astronomico di Bologna; Bologna; Italy; (6) Pontificia; Universidad Cat\'olica de Chile; Departamento da Astronom\'ia y; Astrof\'isica; Santiago; Chile; (7) ESO; Garching b. M\"unchen; Germany.)

arXiv:1202.6176·astro-ph.GA·June 4, 2015

C and N abundances of MS and SGB stars in NGC 1851

C. Lardo (1), A. P. Milone (2,3), A. F. Marino (4), A. Mucciarelli, (1), E. Pancino (5), M. Zoccali (5,6), M. Rejkuba (7), R. Carrera (2,3) and, O. Gonzalez (7) ((1) Department of Astronomy, University of Bologna, Italy,, (2) Istituto de Astrof\`i sica de Canarias, La Laguna

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TL;DR

This study analyzes the chemical abundances of C and N in stars on the double subgiant branch of NGC 1851, revealing star-to-star variations and multiple stellar populations with distinct chemical signatures.

Contribution

First detailed chemical analysis of C and N in the double SGB of NGC 1851, linking chemical differences to multiple stellar generations within the cluster.

Findings

01

Significant star-to-star C and N variations across all luminosities.

02

No bimodality detected in C or N content among stars.

03

Fainter SGB stars have about 2.5 times higher C+N content than brighter SGB stars.

Abstract

We present the first chemical analysis of stars on the double subgiant branch (SGB) of the globular cluster NGC 1851. We obtained 48 Magellan IMACS spectra of subgiants and fainter stars covering the spectral region between 3650-6750\AA, to derive C and N abundances from the spectral features at 4300\AA (G-band) and at ~ 3883\AA (CN). We added to our sample ~ 45 unvevolved stars previously observed with FORS2 at the VLT. These two datasets were homogeneously reduced and analyzed. We derived abundances of C and N for a total of 64 stars and found considerable star-to-star variations in both [C/H] and [N/H] at all luminosities extending to the red giant branch (RGB) base (V~18.9). These abundances appear to be strongly anticorrelated, as would be expected from the CN-cycle enrichment, but we did not detect any bimodality in the C or N content. We used HST and ground-based photometry to…

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