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With Iterative and Bosonized Coupling towards Fundamental Particle Properties

Binder, Bernd (2002) With Iterative and Bosonized Coupling towards Fundamental Particle Properties. [Preprint]

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        Abstract

        Previous results have shown that the linear topological potential-to-phase relationship (well known from Josephson junctions) is the key to iterative coupling and non-perturbative bosonization of the 2 two-spinor Dirac equation. In this paper those results are combined to approach the nature of proton, neutron, and electron via extrapolations from the Planck scale to the System of Units (SI). The electron acts as a bosonizing bridge between opposite parity topological currents. The resulting potentials and masses are based on a fundamental soliton mass limit and two iteratively obtained coupling constants, where one is the fine structure constant. The simple non-perturbative and relativistic results are within measurement uncertainty and show a very high significance. The deviation for the proton and electron masses are approximately 1 ppb (10^-9), for the neutron 4 ppb.


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        Item Type: Preprint
        Keywords: Dirac, topological, fundamental, particle, spin, proton, electron, neutron, bosonization, modes, nonabelian, nonlinear, non-pertubative, breather, nonpertubative, pseudosphere, phase, berry, Gordon, sine-Gordon, Aharonov, Bohm, Baecklund, Thirring, Rayleigh, fine structure, iteration, iterative, exact
        Subjects: Specific Sciences > Physics > Fields and Particles
        Specific Sciences > Physics
        Specific Sciences > Physics > Quantum Field Theory
        Specific Sciences > Physics > Quantum Mechanics
        Specific Sciences > Physics > Relativity Theory
        Depositing User: Bernd Binder
        Date Deposited: 31 Dec 2002
        Last Modified: 07 Oct 2010 11:11
        Item ID: 957
        URI: http://philsci-archive.pitt.edu/id/eprint/957

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