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Confirming the presence of second population stars and the iron discrepancy along the AGB of the globular cluster NGC 6752

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arxiv 1811.10626 v1 pith:CIE2BILD submitted 2018-11-26 astro-ph.SR astro-ph.GA

Confirming the presence of second population stars and the iron discrepancy along the AGB of the globular cluster NGC 6752

classification astro-ph.SR astro-ph.GA
keywords starstemperaturesdiscrepancyphotometricsecond-populationalongbeencluster
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Asymptotic giant branch (AGB) stars in the globular cluster NGC6752 have been found to exhibit some chemical peculiarities with respect to the red giant branch (RGB) stars. A discrepancy between [FeI/H] and [FeII/H] (not observed in RGB stars) has been detected adopting spectroscopic temperatures. Moreover, a possible lack of second-population stars along the AGB was claimed. The use of photometric temperatures based on (V-K) colors was proposed to erase this iron discrepancy. Also, ad hoc scenarios have been proposed to explain the absence of second-population AGB stars. Here we analyzed a sample of 19 AGB and 14 RGB stars of NGC6752 observed with the spectrographs UVES. The two temperature scales agree very well for the RGB stars while for the AGB stars there is a systematic offset of ~100 K. We found that even if the photometric temperatures alleviate the iron discrepancy with respect to the spectroscopic ones, a systematic difference between [FeI/H] and [FeII/H] is still found among the AGB stars. An unexpected result is that the photometric temperatures do not satisfy the excitation equilibrium in the AGB stars. This suggests that standard 1D-LTE model atmospheres are unable to properly describe the thermal structure of AGB stars, at variance with the RGB stars. The use of photometric temperatures confirms the previous detection of second-population AGB stars in this cluster, with the presence of clear correlations/anticorrelations among the light element abundances. This firmly demonstrates that both first and second-population stars evolve along the AGB of NGC6752.

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Cited by 1 Pith paper

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  1. Multiple populations along the asymptotic giant branch: a Gaia+APOGEE study of 22 Galactic globular clusters

    astro-ph.GA 2026-07 conditional novelty 6.5

    In nine of 22 globular clusters the most extreme second-population stars are underrepresented on the AGB relative to the RGB, with anomalous stars showing even stronger AGB-manqué signatures.