Physics
Scientific paper
Sep 1997
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997ncimb.112.1193c&link_type=abstract
Nuovo Cimento B, Vol. 112B, No. 9, p. 1193 - 1205
Physics
10
Scientific paper
Electrons are assumed to have the speed c of light and an e.m. self-reaction perpendicular to the velocity so that they perform a circular motion (spin or real zitterbewegung) that generates the zero-point field, hence special relativity. The spin angular frequency ωs = c/Rs, where Rs is the radius of the spin orbit, is obtained from the Hubble constant H and the average density N of electrons in the universe by equating the powers Pradiated = Pabsorbed. Used in the reverse way the new relationship leads to values of H and of Ωb = ρmb/qme (where ρmb is the average baryonic mass density of the universe and ρme the critical mass density) in agreement with recent observations. Quantum mechanics (QM) is derived as well, although the Schrödinger equation is found to be an approximate regime equation not valid for scattering. Even for diffraction of electrons there are different predictions between QM and the proposed stochastic electrodynamics implemented by spin. A relevant experiment to discriminate between the two theories is proposed.
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