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A Model for a Chemical Evolution of Galactic Discs.

Published online by Cambridge University Press:  12 April 2016

C. Chiosi*
Affiliation:
Istituto di Astronomia, Università di Padova

Extract

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In this paper we discuss a simple model for the chemical evolution of galactic disks, aiming at understanding the observed metallicity gradients in spiral galaxies. The model in corporates both the recent results of Talbot and Arnett (1975), who proposed a rate of star formation driven by the surface mass density, and those of Lynden-Bell (1975), who investigated the consequences of significant infall of gas into the system. A similar attempt was made by Chiosi (1977) for the solar neighbourhood. The result was that the metallicity distribution of nearby stars can be easily interpreted if the time scale for accretion of gas into the solar pool, or in other words the duration of the disk formation phase, is of the or der of 2-3 109 ys. Such a result is qualitatively in agreement with the models of Larson (1972), Ostricker and Thuan (1975), and also is implicit in the collapse models for the formation of disk galaxies, Larson (1976).

Type
Part I: Formation and Evolution of Disc Galaxies
Copyright
Copyright © Geneva Observatory 1977

References

Chiosi, C. 1977, preprintGoogle Scholar
Freeman, K.C. 1970, Astrophys. J. 160, 811 CrossRefGoogle Scholar
Hunt, R. 1975, M.N.R.A.S. 173, 465 CrossRefGoogle Scholar
Larson, R.B. 1976, M.N.R.A.S. 176, 31 CrossRefGoogle Scholar
Larson, R.B., Tinsley, B.M. 1977, preprintGoogle Scholar
Lynden-Bell, D. 1975, Vistas in Astronomy Vol. 19, 229 CrossRefGoogle Scholar
Ostricker, J.P., Thuan, T.X. 1975, Astrophys. J. 202, 353 CrossRefGoogle Scholar
Pagel, B.E.J., Patchett, B.E. 1975, M.N.R.A.S. 172, 13 CrossRefGoogle Scholar