A statistical model utilizing the Thomas-Fermi approximation is ad- vanced which, by assuming Z0 and W § bosons to be massless particles like photons, explains the short range of weak forces by means of the screening properties of the negative-kinetic-energy neutrino distribution which, according to the Dirac equa- tion, ¯lls the whole universe. In addition, a conjecture is proposed ascribing the current electron and neutrino masses to an evolutive process which took place while the universe was cooling.
A Statistical Model Expounding Weak Bosons as Massless Particles
SALIS, MARCELLO
1999-01-01
Abstract
A statistical model utilizing the Thomas-Fermi approximation is ad- vanced which, by assuming Z0 and W § bosons to be massless particles like photons, explains the short range of weak forces by means of the screening properties of the negative-kinetic-energy neutrino distribution which, according to the Dirac equa- tion, ¯lls the whole universe. In addition, a conjecture is proposed ascribing the current electron and neutrino masses to an evolutive process which took place while the universe was cooling.
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