Abundance anomalies in globular clusters

Symposium - International Astronomical Union ◽

10.1017/s0074180900116687 ◽

1997 ◽

Vol 189 ◽

pp. 193-202

Author(s):

G. S. Da Costa

Keyword(s):

Globular Cluster ◽

Globular Clusters ◽

High Density ◽

Star Forming ◽

Process Indicators ◽

Star Forming Regions ◽

Abundance Anomalies ◽

Galactic Globular Clusters ◽

Red Giant

The galactic globular clusters presumably formed rapidly as high density concentrations at the centres of extensive star forming regions and the natural expectation is that they will be chemically homogeneous. In general, this is confirmed by observation — most globular clusters are extremely homogeneous with regard to most elements. (There are two exceptions: ω Cen and M22 both have intrinsic internal abundance ranges. While of considerable interest, e.g. Norris et al. 1996, this type of “abundance anomaly” will not be discussed here). But we have known for more than twenty years that the surface abundances, which are what we observe, of elements such as C, N and O can vary substantially from red giant to red giant within an individual globular cluster. Indeed it has become clear that “abundance anomalies” of this type are common in the galactic globular cluster population. Briefly, the observed anomalies can be summarized as: (i) the “anomalous” stars are depleted in C and enhanced in N. Depletions of O also often accompany the depletions in C. (ii) The C, N and O variations are usually accompanied by enhancements of Na and Al and when the O depletion and the Al enhancement are both large, Mg is depleted. No other elements, including r- and s-process indicators, vary.

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The GOTHAM survey: chemical evolution of Milky Way globular clusters

Proceedings of the International Astronomical Union ◽

10.1017/s1743921317007086 ◽

2017 ◽

Vol 13 (S334) ◽

pp. 25-28

Author(s):

Bruno Dias ◽

Beatriz Barbuy ◽

Ivo Saviane ◽

Enrico V. Held ◽

Gary Da Costa ◽

...

Keyword(s):

Chemical Evolution ◽

Globular Cluster ◽

Globular Clusters ◽

Stellar Population ◽

Milky Way ◽

Open Clusters ◽

Giant Stars ◽

Globular Cluster System ◽

Galactic Globular Clusters ◽

Red Giant

AbstractMilky Way globular clusters are excellent laboratories for stellar population detailed analysis that can be applied to extragalactic environments with the advent of the 40m-class telescopes like the ELT. The globular cluster population traces the early evolution of the Milky Way which is the field of Galactic archaeology. We present our GlObular clusTer Homogeneous Abundance Measurement (GOTHAM) survey. We derived radial velocities, Teff, log(g), [Fe/H], [Mg/Fe] for red giant stars in one third of all Galactic globular clusters that represent well the Milky Way globular cluster system in terms of metallicity, mass, reddening, and distance. Our method is based on low-resolution spectroscopy and is intrinsically reddening free and efficient even for faint stars. Our [Fe/H] determinations agree with high-resolution results to within 0.08 dex. The GOTHAM survey provides a new metallicity scale for Galactic globular clusters with a significant update of metallicities higher than [Fe/H] > -0.7. We show that the trend of [Mg/Fe] with metallicity is not constant as previously found, because now we have more metal-rich clusters. Moreover, peculiar clusters whose [Mg/Fe] does not match Galactic stars for a given metallicity are discussed. We also measured the CaII triplet index for all stars and we show that the different chemical evolution of Milky Way open clusters, field stars, and globular clusters implies different calibrations of calcium triplet to metallicity.

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Near Infrared Photometry of New Galactic Globular Clusters GC 01 and GC 02

Symposium - International Astronomical Union ◽

10.1017/s0074180900223437 ◽

2002 ◽

Vol 207 ◽

pp. 107-109 ◽

Cited By ~ 2

Author(s):

J. Borissova ◽

V. D. Ivanov ◽

L. Vanzi

Keyword(s):

Globular Cluster ◽

Preliminary Report ◽

Globular Clusters ◽

Surface Brightness ◽

Near Infrared ◽

Infrared Photometry ◽

Galactic Globular Clusters ◽

Red Giant ◽

Best Fit ◽

Calculated Distance

We present a preliminary report on the first deep near infrared photometry of 2MASS GC 01 and 2MASS GC 02 - new Galactic globular cluster candidates, discovered by the 2MASS. The red giant branch slopes yielded [Fe/H]=-0.42 ± 0.15 dex and [Fe/H]=-0.66 ± 0.17 dex, respectively for GC 01 and GC 02. We estimated the reddening towards GC 01 and GC 02: E(B - V) = 5.36 ± 0.20, and E(B - V) = 4.55 ± 0.17. The calculated distance moduli to the clusters are: (m - M)0 = 13.53 ± 0.27 and (m - M)0 = 14.53 ± 0.31 for GC 01 and GC 02. Our best fit for the radial surface brightness profile of GC 02 yields: lg(rc) = 1.40, lg(rh) = 1.54, lg(rt) = 1.31, and c=1.60. CC 01 is less concentrated: lg(rc) = 1.63, lg(rh) = 1.7, lg(rt) = 1.25, and c=1.41.

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Abundance of zirconium in the atmospheres of red giants in Galactic globular cluster 47 Tuc

Proceedings of the International Astronomical Union ◽

10.1017/s1743921319007476 ◽

2019 ◽

Vol 14 (S351) ◽

pp. 309-311

Author(s):

Edgaras Kolomiecas ◽

Vidas Dobrovolskas ◽

Arūnas Kučinskas

Keyword(s):

Globular Cluster ◽

Globular Clusters ◽

Stellar Model ◽

Red Giants ◽

Line Profiles ◽

Galactic Field ◽

Galactic Globular Clusters ◽

Red Giant

AbstractWe determined zirconium abundance in the atmospheres of 327 red giant branch (RGB) stars in the globular cluster 47 Tuc. The 1D LTE abundances were obtained from the archival VLT GIRAFFE spectra, using 1D hydrostaticATLAS9 stellar model atmospheres and synthetic Zr I line profiles computed with theSYNTHE package. The average zirconium abundance determined in the sample of RGB stars, 〈[Zr/Fe]〉 = +0.38 ± 0.12, agrees well with zirconium abundances obtained at this metallicity in the Galactic field stars, as well as with those observed in other Galactic globular clusters.

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Extending the Red Giant Branch versus Metallicity Calibration toward Metal-poor Systems: Near-Infrared Photometry of the Galactic Globular Clusters M56 and M15

The Astronomical Journal ◽

10.1086/301363 ◽

2000 ◽

Vol 119 (5) ◽

pp. 2274-2281 ◽

Cited By ~ 10

Author(s):

Valentin D. Ivanov ◽

Jordanka Borissova ◽

Almudena Alonso-Herrero ◽

Tatiana Russeva

Keyword(s):

Globular Clusters ◽

Near Infrared ◽

Infrared Photometry ◽

Galactic Globular Clusters ◽

Red Giant

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Star Clusters in Irregular Galaxies in the Local Group

Symposium - International Astronomical Union ◽

10.1017/s0074180900223425 ◽

2002 ◽

Vol 207 ◽

pp. 94-104

Author(s):

Eva K. Grebel

Keyword(s):

Globular Clusters ◽

Local Group ◽

Cluster Formation ◽

Star Clusters ◽

Open Clusters ◽

High Angular Resolution ◽

Star Clusters And Associations ◽

Star Forming ◽

Star Forming Regions ◽

Irregular Galaxies

I summarize our knowledge of star clusters and associations in irregular galaxies other than the Magellanic Clouds in the Local Group. Surveys affording complete area coverage at high angular resolution are still lacking. Confirmed globular clusters are known only in NGC 6822 and WLM. Very few dIrrs contain populous or sparse open clusters. There is a pronounced deficiency of intermediate-age and young clusters. Apart from parent galaxy mass, the lack of interactions may be a key reason for the lack of cluster formation in the dIrrs. All dIrrs have one or several short-lived OB associations in the star-forming regions in their centers.

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ROSAT Observations of Globular Clusters in the Galaxy and in M31

Symposium - International Astronomical Union ◽

10.1017/s0074180900055856 ◽

1996 ◽

Vol 165 ◽

pp. 389-400

Author(s):

Helen M. Johnston ◽

Frank Verbunt ◽

Günther Hasinger ◽

Wolfram Bunk

Keyword(s):

Neutron Stars ◽

Globular Cluster ◽

Spectral Properties ◽

Globular Clusters ◽

Luminosity Function ◽

Binary Systems ◽

X Ray ◽

The Galaxy ◽

Galactic Globular Clusters

X-ray sources in globular clusters fall into two categories: the “bright” sources, with LX ∼ 1036-1038 erg s−1, and the “dim” sources, with LX ≲ 1034.5 erg s−1. The bright sources are clearly associated with accreting neutron stars in binary systems. The nature of the dim sources, however, remains in doubt. We review recent observations of globular-cluster X-ray sources with the ROSAT satellite. ROSAT detected bright sources in M31 globular clusters and greatly increased the number of dim sources known in galactic globular clusters. We discuss what these new observations have taught us about the distribution and nature of such sources, their spectral properties, and their underlying luminosity function.

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The multipopulation phenomenon in Galactic globular clusters: M4 and M22

Proceedings of the International Astronomical Union ◽

10.1017/s1743921309991219 ◽

2009 ◽

Vol 5 (S266) ◽

pp. 326-332

Author(s):

S. Villanova ◽

G. Piotto ◽

A. F. Marino ◽

A. P. Milone ◽

A. Bellini ◽

...

Keyword(s):

High Resolution ◽

Spectroscopic Data ◽

Globular Clusters ◽

Stellar Population ◽

The Other ◽

Wide Field ◽

Galactic Globular Clusters ◽

Red Giant ◽

Process Elements ◽

Different Characteristics

AbstractWe present an abundance analysis based on high-resolution spectra of red-giant-branch (RGB) stars in the Galactic globular clusters NGC 6121 (M4) and NGC 6656 (M22). Our aim was to study their stellar population in the context of the multipopulation phenomenon recently discovered to affect some globular clusters. Analysis was performed for the following elements: O, Na, Mg, Al, Ca, Fe, Y, and Ba. Spectroscopic data were completed by high-precision wide-field U BV IC ground-based photometry and HST/ACS observations. For M4, we find a well-defined Na–O anticorrelation composed of two distinct groups of stars with significantly different Na and O content. The two groups of Na-rich and Na-poor stars populate two different regions along the RGB. As regards M22, Na and O follow the well-known anticorrelation found in many other GCs. However, at odds with M4, it appears to be continuous without any hint of clumpiness. On the other hand, we identified two clearly separated groups of stars with significantly different abundances of the s-process elements Y, Zr and Ba. The relative numbers of the members of both groups are very similar to the ratio of the stars in the two subgiant branches of M22 recently found by Piotto (2009). The s-element-rich stars are also richer in iron and have higher Ca abundances. This makes M22 the second cluster after ω Centauri where an intrinsic spread in Fe was found. Both spectroscopic and photometric results imply the presence of two stellar populations in M4 and M22, even if both clusters have completely different characteristics.

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