On the accretion of interstellar matter by stars
Published online by Cambridge University Press: 24 October 2008
Extract
The rate of accretion of interstellar matter by stars as proposed in a previous paper is further discussed. It is shown that this amount, while sufficient for the evolution of the majority of stars, is insufficient by a factor of the order of 10 or more to give a satisfactory description of the general evolution of massive stars and close binary systems of small mass. Consideration of the possibility of increasing the rate of accretion for such exceptional stars leads to the conclusion that this can be carried out satisfactorily only by a corresponding increase in the density of the cloud. Although we were led to this view by considering all the factors involved in accretion and showing that only a change in the density could possibly produce the required increase, it is at once clear from the accretion formula, without detailed discussion of the other quantities involved, that the density is the only factor through which effects could be introduced that do not apply to all stars quite generally. By investigating the various factors in the galaxy affecting the density, it is shown that within 100 parsecs of the galactic plane, and also in local regions, the density may rise above 10−21 g. per c.c., which gives an increase of order 100 times the normal rate for stars lying in these regions. These suggestions receive independent corroboration from investigations by Jeans relating to extra-galactic nebulae which led to average densities also of order 10−21 g. per c.c., while a further argument from geological evidence shows that the average density of material along the sun's track must be higher than 10−21 g. per c.c. It remains to be seen whether future observations will succeed in confirming these suggestions indicated by the requirements of this theory of stellar evolution.
- Type
- Research Article
- Information
- Mathematical Proceedings of the Cambridge Philosophical Society , Volume 36 , Issue 3 , July 1940 , pp. 325 - 330
- Copyright
- Copyright © Cambridge Philosophical Society 1940
References
* Proc. Cambridge Phil. Soc. 35 (1939), 592.Google Scholar
* Unpublished.
* Russell, , Dugan, and Stewart, , Astronomy, 2 (Ginn and Co., 1938), p. 808.Google Scholar
* Joy, , Astrophysical Journal, 89 (1939), 271.CrossRefGoogle Scholar
† Oort, , Bull. Ast. Inst. Netherlands, 8 (1938), 308.Google Scholar
‡ Astronomy and cosmogony (Cambridge, 1929), p. 338.Google Scholar
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