Mathematics – Logic
Scientific paper
Dec 1953
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1953phrv...92.1347a&link_type=abstract
Physical Review, vol. 92, Issue 6, pp. 1347-1361
Mathematics
Logic
91
Scientific paper
The detailed nature of the general nonstatic homogeneous isotropic cosmological model as derived from general relativity is discussed for early epochs in the case of a medium consisting of elementary particles and radiation which can undergo interconversion. The question of the validity of the description afforded by this model for the very early super-hot state is discussed. The present model with matter-radiation interconversion exhibits behavior different from non-interconverting models, principally because of the successive freezing-in or annihilation of various constituent particles as the temperature in the expanding universe decreased with time. The numerical results are unique in that they involve no disposable parameters which would affect the time dependence of pressure, temperature, and density. The study of the elementary particle reactions leads to the time dependence of the proton-neutron concentration ratio, a quantity required in problems of nucleogenesis. This ratio is found to lie in the range ~4.5:1-~6.0:1 at the onset of nucleogenesis. These results differ from those of Hayashi mainly as a consequence of the use of a cosmological model with matter-radiation interconversion and of relativistic quantum statistics, as well as a different value of the neutron half-life.
Alpher Ralph A.
Follin W. Jr. J.
Herman Robert C.
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