1998
DOI: 10.1046/j.1365-8711.1998.01671.x
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Carbon and nitrogen abundance variations on the main sequence of 47 Tucanae

Abstract: The FOCAP multi‐object fibre optic system on the AAT has been used to obtain spectra for a sample of more than a hundred faint stars in the globular cluster 47 Tuc (NGC 104), from the base of the giant branch to about a magnitude below the main‐sequence turn‐off. The spectra cover the ultraviolet and blue bands of CN and the G band of CH. Quantitative abundances have been derived by comparing the observations with synthetic spectra. The main‐sequence stars can be divided into two approximately equal groups, on… Show more

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Cited by 189 publications
(242 citation statements)
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“…While for the first cluster the comparison between TO and SGB stars shows no significant abundance differences and a very low scatter in oxygen, NGC 6752 already displays the full range of the O-Na anticorrelation close to the main sequence. These observations provide strong evidence for a nonevolutionary source for the abundance anomalies, as do the results by King et al (1998) Cannon et al 1998;M4, Ivans et al 1999;M71, Briley & Cohen 2001) a bimodal C-N abundance distribution is present all along the cluster sequence, or-as in M5 (Ivans et al 2001)-the extent of the anomaly may even be anticorrelated with evolutionary state. All these facts are interpreted in terms of the presence of a primordial source such as contamination by more massive stars.…”
Section: Globular Cluster Starssupporting
confidence: 64%
“…While for the first cluster the comparison between TO and SGB stars shows no significant abundance differences and a very low scatter in oxygen, NGC 6752 already displays the full range of the O-Na anticorrelation close to the main sequence. These observations provide strong evidence for a nonevolutionary source for the abundance anomalies, as do the results by King et al (1998) Cannon et al 1998;M4, Ivans et al 1999;M71, Briley & Cohen 2001) a bimodal C-N abundance distribution is present all along the cluster sequence, or-as in M5 (Ivans et al 2001)-the extent of the anomaly may even be anticorrelated with evolutionary state. All these facts are interpreted in terms of the presence of a primordial source such as contamination by more massive stars.…”
Section: Globular Cluster Starssupporting
confidence: 64%
“…To first order the band strength variations are bimodal and anti-correlated with the numbers of CN-strong/CH-weak and CN-weak/CH-strong stars being approximately equal. These results are similar to those found by Cannon et al (1998) for main sequence stars in 47 Tuc and they remove any possibility that 47 Tuc could be considered unique or a special case.…”
Section: Abundance Anomaliessupporting
confidence: 89%
“…However, we can still provide a rough estimate, by assuming that MPs in younger clusters are the same as those of ancient GCs, i.e. an enhancement in N is associated with a depletion in C (Cannon et al 1998 cannot exclude the presence of a slight N variation due to observational uncertainties and decontamination from field stars (see §4). If we assume a [N/Fe] ∼ +0.5 dex for NGC 1978, then we can set an upper limit to any enrichment in the younger clusters (NGC 419, 1783(NGC 419, , 1806(NGC 419, , 1846 of [N/Fe]< +0.3 dex.…”
Section: Comparison With Stellar Modelsmentioning
confidence: 99%
“…However, observational evidence collected in the last decade has conclusively demonstrated that GCs host multiple populations (MPs) of stars, which manifest in the form of distinctive star-to-star light element variations. While some GC stars have the same C, N, O, Na abundances as field stars with the same metallicity (i.e., iron content), a significant fraction of cluster members show systematically enhanced N and Na along with depleted C and O (Cannon et al 1998;Carretta et al 2009). Almost all old (> 10 Gyr) and massive (above a few times 10 4 M ) GCs in the Milky Way (Piotto et al 2015) and nearby galaxies (Mucciarelli et al 2009;Dalessandro et al 2016;Niederhofer et al 2017b;Larsen, Brodie & Strader 2012) have been found to host star-to-star chemical anomalies.…”
mentioning
confidence: 99%