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Abundance anomalies in globular clusters

Published online by Cambridge University Press:  25 May 2016

G. S. Da Costa*
Affiliation:
Mt. Stromlo & Siding Spring Observatories, Private Bag, Weston Creek PO, ACT 2611, AUSTRALIA

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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.

Type
Stellar Abundances
Copyright
Copyright © Kluwer 1997 

References

Arnould, M., Mowlavi, N., & Champagne, A. 1995, in Stellar Evolution: What Should Be Done, edited by Noels, A. et al. (Univ. Liège, Liège), p. 17 Google Scholar
Briley, M.M., Bell, R.A., Hoban, S., & Dickens, R.J. 1990, ApJ, 359, 307 Google Scholar
Briley, M.M., et al. 1994, AJ, 108, 2183 Google Scholar
Briley, M.M., et al. 1996, Nature, 383, 604 Google Scholar
Brown, J.A., & Wallerstein, G. 1992, AJ, 104, 1818 Google Scholar
Brown, J.A., Wallerstein, G., & Oke, J.B. 1990, AJ, 100, 1561 Google Scholar
Cavallo, R.M., Sweigart, A.V., & Bell, R.A. 1996, ApJ, 464, L79 Google Scholar
Cottrell, P.L., & Da Costa, G.S. 1981, ApJ, 245, L79 Google Scholar
Denisenkov, P., & Denisenkova, S.N. 1990, Sov. Astron. Lett. 16, 275 Google Scholar
Dickens, R.J., Croke, B.F.W., Cannon, R.D., & Bell, R.A. 1991, Nature, 351, 212 Google Scholar
Harding, G.A. 1962, Observatory, 82, 205 Google Scholar
Hesser, J.E., Hartwick, F.D.A., & McClure, R.D. 1976, ApJ, 207, L113 Google Scholar
Kraft, R.P., et al. 1995, AJ, 109, 2586 Google Scholar
Kraft, R.P., et al. 1997, AJ, 113, 279 (K97) Google Scholar
Langer, G.E., et al. 1986, PASP, 98, 473 Google Scholar
Norris, J.E. & Da Costa, G.S. 1995a, ApJ, 441, L81 Google Scholar
Norris, J.E. & Da Costa, G.S. 1995b, ApJ, 447, 680 Google Scholar
Norris, J., & Freeman, K.C. 1979, ApJ, 230, L179 Google Scholar
Norris, J., & Freeman, K.C. 1982, ApJ, 254, 143 Google Scholar
Norris, J., Freeman, K.C., & Da Costa, G.S. 1984, ApJ, 277, 615 Google Scholar
Norris, J.E., Freeman, K.C., & Mighell, K.J. 1996, ApJ, 462, 241 Google Scholar
Norris, J., Freeman, K.C., Cottrell, P.L., & Da Costa, G.S. 1981, ApJ, 244, 205 Google Scholar
Osborn, W. 1971, Observatory, 91, 223 Google Scholar
Paltoglou, G. 1989, , Google Scholar
Peterson, R.C. 1980, ApJ, 237, L87 CrossRefGoogle Scholar
Pilachowski, C.A., Sneden, C., Kraft, R.P., & Langer, G.E. 1996, AJ, 112, 545 Google Scholar
Popper, D.M. 1947, ApJ, 105, 204 Google Scholar
Shetrone, M.D. 1996a, AJ, 112, 1517 (S96a) Google Scholar
Shetrone, M.D. 1996b, AJ, 112, 2639 Google Scholar
Smith, G.H., & Norris, J.E. 1982, ApJ, 254, 594 Google Scholar
Smith, G.H., et al. 1996, AJ, 112, 1511 Google Scholar
Suntzeff, N.B., & Smith, V.V. 1991, ApJ, 381, 160 Google Scholar
VandenBerg, D.A. & Smith, G.H. 1988, PASP, 100, 314 Google Scholar