G. Piotto scite author profile

We report on the complex structure of the red giant branch (RGB) of omega Centauri, based on a new wide-field and wide-color baseline B and I photometry. Our color-magnitude diagram (CMD) shows the presence of multiple populations along this branch; in particular, we discovered an anomalous branch (RGB-a), which appears to be well separated from the bulk of the RGB stars. On the basis of our CMD and from the previous literature, we conclude that (1) these stars, clearly identified as a separate population in our CMD, represent the extreme metal-rich extension (&sqbl0;Ca&solm0;H&sqbr0;>-0.3) of the stellar content of omega Cen and show anomalous abundances of s-process elements (as Ba and Zr) as well; (2) they are physical members of the omega Cen system; (3) they comprise approximately 5% of the stars of the whole system; and (4) this component and the metal intermediate one (-0.4>&sqbl0;Ca&solm0;H&sqbr0;>-1) have been found to share the same spatial distribution, both of them differing significantly from the most metal-poor one (&sqbl0;Ca&solm0;H&sqbr0;<-1). This last piece evidence supports the hypothesis that metal-rich components could belong to an independent (proto?) stellar system captured in the past by omega Cen.

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Discovery of Extended Blue Horizontal Branches in Two Metal-rich Globular Clusters

Rich

et al. 1997

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We have used WFPC2 to construct B, V color-magnitude diagrams of four metal-rich globular clusters, NGC 104 (47 Tuc), NGC 5927, NGC 6388, and NGC 6441. All four clusters have well populated red horizontal branches (RHB), as expected for their metallicity. However, NGC 6388 and 6441 also exhibit a prominent blue horizontal-branch (BHB) extension, including stars reaching as faint in V as the turnoff luminosity. This discovery demonstrates directly for the first time that a major population of hot horizontal-branch (HB) stars can exist in old, metal-rich systems. This may have important implications for the interpretation of the integrated spectra of elliptical galaxies.The cause of the phenomenon remains uncertain. We examine the possibility that NGC 6388 and 6441 are older than the other clusters, but a simple difference in age may not be sufficient to produce the observed distributions along the HB. The high central densities in NGC 6388 and 6441 suggest that the existence of the BHB tails might be caused by stellar interactions in the dense cores of these clusters, which we calculate to have two of the highest collision rates among globular clusters in the Galaxy. Tidal collisions might act in various ways to enhance loss of envelope mass and therefore populate the blue side of the HB. However, the relative frequency of tidal collisions does not seem large enough (compared to that of the clusters with pure RHBs) to account for such a drastic difference in HB morphology. While a combination of an age difference and dynamical interactions may help, prima facie the lack of a radial gradient in the BHB͞RHB star ratio seems to argue against dynamical effects playing a role.

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On the effects of cluster density and concentration on the horizontal branch morphology - The origin of the blue tails

Ferraro²,

et al. 1993

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G. Piotto

New Evidence for the Complex Structure of the Red Giant Branch in ω Centauri

Discovery of Extended Blue Horizontal Branches in Two Metal-rich Globular Clusters

On the effects of cluster density and concentration on the horizontal branch morphology - The origin of the blue tails

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