An Attempt to Interpret the Relative Abundances of the Elements and Their Isotopes.
Mar, 1942Citations per year
Abstract: (submitter)
In this paper an attempt is made to derive some information concerning the prestellar stage at which the elements are supposed to have been formed. By using first the relative abundances of the isotopes of a single element (e.g., 0, Ne, Mg, Si, and S), it is shown that a temperature of the order of a few billion degrees is indicated. The equilibrium between the fundamental nuclear particles (protons, neutrons, a-particles, electrons, and positrons) at temperatures ranging from 5 to io billion degrees is then studied to establish the relative concentrations of protons and neutrons as a function of the temperature. This relation is then used to compute theoretical mass-abundance-curves under different physical conditions. From such calculations it is concluded that under the physical conditions specified by T = 8 X io9 degrees and p = ~ gm/cm3 the theoretical mass-abundance-curve from oxygen to sulphur agrees fairly satisfactorily with the known abundance-curve according to V. M. Goldschinidt (Fig. 2). An important feature of the nuclear mixture considered is that hydrogen and helium are the two most abundant constituents, which is in agreement with known facts. However, the conditions indicated are seen to be quite insufficient to account for the existence of the heavy nuclei to any appreciable extent. It is, therefore, suggested that we should distinguish at least two epochs in the development of the pre- stellar stage. We imagine that at the earliest stages conditions of extreme temperatures and densities prevailed at which the heavier nuclei could have been formed. As the matter cooled to lower tempera- tures and densities, appreciable amounts (i part in io6) of the heavy elements must have been "frozen" into the mixture. At temperatures of the order of from 5 X io9 to 8X io9 degrees and densities of the order of from io4 to io7 gm/cm3 the present known relative abundances of the elements from oxygen to sulphur may have been established.References(0)
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