Abundance analysis of turn-off and early subgiant stars in the globular cluster 47 Tuc (NGC 104)

We used the UVES spectrograph on Kueyen (VLT UT2) to perform abundance analysis of stars at the base of the giant branch (RGB) and at the main sequence turn-off in the globular cluster 47 Tuc (NGC 104). High dispersion spectra ($R\ga 40\,000$) for 3 dwarfs and 9 subgiants were analyzed. We found an overall [Fe/H] value of -0.67  ± 0.01  ± 0.04, rms = 0.05 dex. The mean value obtained from stars at the base of the RGB is virtually the same as that obtained from the dwarfs. Na and O abundances show a star-to-star scatter and are anti-correlated, not unlike previous findings in more metal-poor clusters. The extension of the anticorrelation is not as extreme as found in other clusters, but it is clearly present in unevolved stars. Al abundances do not show a significant spread; this could be indicative that p-captures in high temperature regions are less likely to occur in metal-rich clusters. The [ α /Fe]  ratios suggest a slight excess of Ti with respect to field stars of similar metallicities. We found an enhanced odd-even effect for Fe-group elements. In particular, the [Mn/Fe] ratio is almost 0.2 dex deficient with respect to the mean value of the dissipative component of field stars in the solar neighborhood. While the theoretical and observational framework for Mn is still poorly understood, the chemistry of 47 Tuc, coupled with its kinematics and its somewhat younger age, might give hints favouring an origin in a formely independent, possibly larger, subsystem of our Galaxy.

[1]  T. Beers,et al.  First stars V - Abundance patterns from C to Zn and supernova yields in the early Galaxy , 2003, astro-ph/0311082.

[2]  S. Lucatello,et al.  Rotation in Globular Cluster stars: Turn-off and subgiant stars in NGC 104, NGC 6397 and NGC 6752 , 2003 .

[3]  C. R. James,et al.  Chemical Substructure in the Milky Way Halo: A New Population of Old Stars , 2003 .

[4]  Denmark,et al.  Distances and ages of NGC 6397, NGC 6752 and 47 Tuc , 2003, astro-ph/0307016.

[5]  R. Rich,et al.  Constraints on the Origin of Manganese from the Composition of the Sagittarius Dwarf Spheroidal Galaxy and the Galactic Bulge , 2003 .

[6]  S. Lucatello,et al.  Abundances for metal-poor stars with accurate parallaxes , I. Basic data , 2003, astro-ph/0303653.

[7]  C. Prieto,et al.  The chemical compositions of Galactic disc F and G dwarfs , 2002, astro-ph/0211551.

[8]  M. Shetrone,et al.  VLT/UVES Abundances in Four Nearby Dwarf Spheroidal Galaxies. I. Nucleosynthesis and Abundance Ratios , 2002, astro-ph/0211167.

[9]  M. Shetrone,et al.  VLT/UVES Abundances in Four Nearby Dwarf Spheroidal Galaxies. II. Implications for Understanding Galaxy Evolution , 2002, astro-ph/0211168.

[10]  S. Ramírez,et al.  Abundances in Stars from the Red Giant Branch Tip to near the Main-Sequence Turnoff in M5 , 2002, astro-ph/0210245.

[11]  K. Freeman,et al.  The New Galaxy: Signatures of Its Formation , 2002, astro-ph/0208106.

[12]  T. Beers,et al.  Stellar Archaeology: A Keck Pilot Program on Extremely Metal-poor Stars from the Hamburg/ESO Survey. II. Abundance Analysis , 2002, astro-ph/0204083.

[13]  C. Sneden,et al.  A Study of Abundances of Four Giants in the Low-Mass Globular Cluster Palomar 5 , 2002 .

[14]  Judith G. Cohen,et al.  Abundances in Stars from the Red Giant Branch Tip to Near the Main-Sequence Turnoff in M71. III. Abundance Ratios , 2001, astro-ph/0111572.

[15]  UK.,et al.  The self-enrichment of galactic halo globular clusters The mass-metallicity relation , 2001, astro-ph/0108437.

[16]  M. Shetrone,et al.  New Analyses of Star-to-Star Abundance Variations among Bright Giants in the Mildly Metal-poor Globular Cluster M5 , 2001, astro-ph/0106249.

[17]  R. Gratton,et al.  An Abundance Analysis for Four Red Horizontal-Branch Stars in the Extremely Metal-Rich Globular Cluster NGC 6528 , 2001, astro-ph/0102014.

[18]  S. Lucatello,et al.  The O-Na and Mg-Al anticorrelations in turn-off and early subgiants in globular clusters , 2000, astro-ph/0012457.

[19]  M. Shetrone,et al.  Abundance Patterns in the Draco, Sextans, and Ursa Minor Dwarf Spheroidal Galaxies , 2000, astro-ph/0009505.

[20]  R. Claudi,et al.  Metal Abundances of Red Clump Stars in Open Clusters. I. NGC 6819 , 2000, astro-ph/0009321.

[21]  G. Piotto,et al.  Galactic Globular Cluster Relative Ages , 1999, astro-ph/9907394.

[22]  Gisella Clementini,et al.  Distances, Ages, and Epoch of Formation of Globular Clusters , 1999, astro-ph/9902086.

[23]  A. Burrows,et al.  Nucleosynthesis in Type II Supernovae and the Abundances in Metal-poor Stars , 1998, astro-ph/9809307.

[24]  Russell D. Cannon,et al.  Carbon and nitrogen abundance variations on the main sequence of 47 Tucanae , 1998 .

[25]  S. Feltzing,et al.  Abundances in metal-rich stars. Detailed abundance analysis of 47 G and K dwarf stars with [Me/H] > 0.10 dex , 1997, astro-ph/9710315.

[26]  D. Zucker,et al.  High-Resolution CCD Spectra of Stars in Globular Clusters.IX.The , 1997 .

[27]  William E. Harris,et al.  A Catalog of Parameters for Globular Clusters in the Milky Way , 1996 .

[28]  Bruce W. Carney,et al.  THE CONSTANCY OF [ALPHA/FE] IN GLOBULAR CLUSTERS OF DIFFERING [FE/H] AND AGE , 1996 .

[29]  R. G. Gratton,et al.  Abundances for globular cluster giants: I. homogeneous metallicities for 24 clusters , 1996, astro-ph/9607078.

[30]  Yuzuru Yoshii,et al.  Relative frequencies of Type Ia and Type II supernovae in the chemical evolution of the Galaxy, LMC and SMC , 1995 .

[31]  J. Norris,et al.  The Sodium/Aluminum--Oxygen Anticorrelation in omega Centauri and Other Clusters , 1995 .

[32]  A. Burkert,et al.  On the Formation of Globular Clusters. II. Early Dynamical Evolution , 1995 .

[33]  R. P. Kraft ABUNDANCE DIFFERENCES AMONG GLOBULAR CLUSTER GIANTS: PRIMORDIAL VS. EVOLUTIONARY SCENARIOS , 1994 .

[34]  M. Shetrone,et al.  Oxygen Abundances in Halo Giants. V. Giants in The Fairly Metal-Rich Globular Cluster M71 , 1994 .

[35]  C. Sneden,et al.  SODIUM-OXYGEN ABUNDANCE ANTICORRELATIONS AND DEEP MIXING SCENARIOS FOR GLOBULAR CLUSTER GIANTS , 1993 .

[36]  G. Wallerstein,et al.  High-resolution CCD spectra of stars in globular clusters. VII : Abundances of 16 elements in 47 Tuc, M4, and M22 , 1992 .

[37]  A. Burkert,et al.  On the formation of globular clusters. I - Dynamical limits on globular cluster metallicities , 1991 .

[38]  J. Hesser,et al.  C and N abundances among 47 Tucanae main-sequence stars , 1991 .

[39]  M. Mateo,et al.  CN and CH variations among giants in the globular cluster M2 , 1990 .

[40]  Peter B. Stetson,et al.  A CCD COLOR-MAGNITUDE STUDY OF 47 TUCANAE. , 1987 .

[41]  J. Norris The Ellipticities of Globular Clusters and the Cyanogen Problem , 1987 .

[42]  Graeme H. Smith,et al.  THE CHEMICAL INHOMEGENEITY OF GLOBULAR CLUSTERS. , 1987 .

[43]  J. Tassoul,et al.  Meridional circulation in rotating stars. VII. The effects of chemical inhomogeneities , 1984 .

[44]  R. Cannon,et al.  Spectroscopic analysis of dwarf and subgiant stars in 47 Tucanae. , 1983 .

[45]  G. Costa,et al.  Correlated cyanogen and sodium anomalies in the globular clusters 47 Tuc and NGC 6752 , 1981 .

[46]  J. Hesser,et al.  CN variations among main-sequence 47 Tucanae stars , 1980 .

[47]  A. Sweigart,et al.  Meridional circulation and CNO anomalies in red giant stars , 1979 .

[48]  J. Hesser Spectral Inhomogeneities in Faint 47 Tucanae Stars , 1978 .

[49]  L. Woltjer The galactic halo - Globular clusters , 1975 .

[50]  J. Greenstein,et al.  Abundances in Some Population II K Giants. , 1959 .

[51]  D. Mcnamara The Velocity-Curve of 16 Lacertae. , 1957 .

[52]  Arlette Noels-Grötsch,et al.  The Galactic halo. From globular clusters to field stars. Proceedings. , 2000 .

[53]  V. Smith,et al.  Sodium abundance variations in main-sequence stars of the globular cluster 47 Tucanae , 1996, Nature.

[54]  R. Kurucz The Kurucz Smithsonian Atomic and Molecular Database , 1995 .

[55]  John E. Hibbard,et al.  The globular cluster-galaxy connection , 1993 .

[56]  M. Spite,et al.  The impact of very high S/N spectroscopy on stellar physics : proceedings of the 132nd Symposium of the International Astronomical Union, held in Paris, France, June 29-July 3, 1987 , 1988 .

[57]  W. Arnett GALACTIC EVOLUTION AND NUCLEOSYNTHESIS. , 1971 .

[58]  B. Warner,et al.  The Abundances of the Elements in the Solar Photosphere—II: Sodium, Aluminium, Phosphorous, Sulphur and Potassium , 1968 .