Mathematics – Probability
Scientific paper
Jul 1982
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1982nciml..34..409d&link_type=abstract
Nuovo Cimento, Lettere, Serie 2, vol. 34, July 24, 1982, p. 409-412.
Mathematics
Probability
2
Angular Momentum, Cosmology, Elementary Particles, Particle Trajectories, Spin Dynamics, Celestial Mechanics, Mass Distribution, Particle Motion, Velocity Distribution
Scientific paper
The theoretical basis for the spin circulation asymmetry interpretation of the large number radius is summarized, and several explanations are suggested. One of these, that the Universe was once composed entirely of miniholes whose Schwarzschild radii were of the same order as the Compton wavelength of the proton, is attractive if the large number is an absolute constant in time. If in an atomic metric the large number varies with atomic time, the metric relation bears a strong resemblance to Boltzmann's formula for entropy, and atomic time can be thought of as probability time. The world number of symmetry-breaking poles would then be proportional to this probability time, which suggests that the probability of flip of an elementary particle may be linked with cosmology. The existence of symmetry-breaking poles may, however, be a wholly statistical result.
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