Hostname: page-component-cd9895bd7-gbm5v Total loading time: 0 Render date: 2024-12-12T21:47:24.886Z Has data issue: false hasContentIssue false

A Retrospective Introduction

Published online by Cambridge University Press:  14 August 2015

David L. Lambert*
Affiliation:
Department of Astronomy & McDonald Observatory University of Texas Austin, TX, USA

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

“It takes little talent to see clearly what lies under one’s nose, a good deal of it to know in which direction to point that organ.” W. H. Auden

Listening to the sequence of fine talks that have made up this Joint Discussion, I have been impressed by the veritable flood of new observations that bear on the question of the abundance ratios in the oldest stars. The flood is marked by depth and diversity, as ‘noses’ are being pointed in highly profitable directions. As an example of depth, I would note the extensive investigations reviewed by Andy McWilliam of the chemical compositions of very metal-poor stars where [Fe/H] ≃ -3 marks the upper end of the range defining the class. To characterize diversity, I draw attention to the analyses of quasar absorption line systems so ably discssed by Limin Lu who showed that the abundance ratios for the gas in such high z systems resemble ratios found from Galactic metal-poor stars. Of course, to many at this Joint Discussion the wealth and diversity did not come as a surprise. Indeed, I suspect that many of us pursue the topic of the composition of the first generations of stars because of the wealth and diversity of observational constraints that may now spawn a unified interpretation. Hopefully, the marvellous talks given here will pull in a few new minds - young and old - to ponder nucleosynthesis in very young galaxies and in our Galaxy in particular.

Type
II. Joint Discussions
Copyright
Copyright © Kluwer 1998

References

Briley, M., Smith, V.V., Suntzeff, N.B., Lambert, D.L., Bell, R.A., Hesser, J.A., 1996, Nature, 383, 604 Google Scholar
Brown, J.H., Burkert, A., Truran, J.W., 1991, ApJ, 376, 115 Google Scholar
Brown, J.H., Burkert, A., Truran, J.W., 1995, ApJ, 440, 666 Google Scholar
Hart, J., 1997, The New Criterion, February issueGoogle Scholar
Lambert, D.L., 1989, in Cosmic Abundances of Matter, ed. Waddington, C. J., AIP Conf. Proc, 183, 168 Google Scholar
McWilliam, A., 1997, ARAA, 35, 503 Google Scholar
McWilliam, A., Preston, G.W., Sneden, C., Searle, L., 1995a, AJ, 109, 2757 Google Scholar
McWilliam, A., Preston, G.W., Sneden, C., Schectman, S., 1995b, AJ, 109, 2736 Google Scholar
Murray, S.D., Lin, D.N.C., 1992, ApJ, 400, 265 Google Scholar
Nissen, P.E., Schuster, W.J., 1997, A&A, 326, 751 Google Scholar
Ryan, S.G., Norris, J.E., Beers, T.C., 1996, ApJ, 471, 254 Google Scholar
Skilmann, E. 1997, in Stellar Astrophysics for the Local Group, ed Aparico, A. et al., Cambridge Univ. Press, in pressGoogle Scholar
Timmes, F.X., Woosley, S.E., Weaver, T.A., 1995, ApJS, 98, 617 Google Scholar
Wheeler, J.C., Sneden, C., Truran, J.W., 1989, ARAA, 27, 279 Google Scholar