Abundances and physical parameters for stars in the open clusters NGC   5822 and IC 4756

G. Pace (1); J. Danziger (2,3); G. Carraro (4); J. Melendez (1); P.; Francois (5); F. Matteucci (2,3); and N. C. Santos (1); ((1) Centro de; Astrofisica; Universidade do Porto; (2) INAF; Osservatorio Astronomico di; Trieste; (3) Department of Astronomy; University of Trieste; (4) European; Southern Observatory; Santiago de Chile (5) Observatoire de Paris.)

arXiv:1002.2547·astro-ph.SR·May 18, 2015

Abundances and physical parameters for stars in the open clusters NGC 5822 and IC 4756

G. Pace (1), J. Danziger (2,3), G. Carraro (4), J. Melendez (1), P., Francois (5), F. Matteucci (2,3), and N. C. Santos (1); ((1) Centro de, Astrofisica, Universidade do Porto, (2) INAF, Osservatorio Astronomico di, Trieste, (3) Department of Astronomy, University of Trieste

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TL;DR

This study compares chemical abundances of dwarfs and giants in two open clusters using high-resolution spectra to assess potential systematic errors and real abundance differences.

Contribution

It provides a detailed differential abundance analysis of dwarfs and giants in NGC 5822 and IC 4756, highlighting real abundance differences for certain elements.

Findings

01

Dwarf stars have near-solar iron abundances in both clusters.

02

Giants show higher sodium, silicon, and titanium abundances than dwarfs.

03

Lithium abundances are similar among stars within each cluster.

Abstract

Classical chemical analyses may be affected by systematic errors that would cause observed abundance differences between dwarfs and giants. For some elements, however, the abundance difference could be real. We address the issue by observing 2 solar--type dwarfs in NGC 5822 and 3 in IC 4756, and comparing their composition with that of 3 giants in either of the aforementioned clusters. We determine iron abundance and stellar parameters of the dwarf stars, and the abundances of calcium, sodium, nickel, titanium, aluminium, chromium, silicon and oxygen for both the giants and dwarfs. We acquired UVES high-resolution, of high signal--to--noise ratio (S/N) spectra. The width of the cross correlation profiles was used to measure rotation velocities. For abundance determinations, the standard equivalent width analysis was performed differentially with respect to the Sun. For lithium and…

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