Solitonic Model of the Electron, Proton, and Neutron

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Scientific Paper
Title Solitonic Model of the Electron, Proton, and Neutron
Author(s) Pavel Sladkov
Keywords {{{keywords}}}
Published 2010
Journal Electric Spacecraft Journal
Volume 47
Pages 19-29

Abstract

In the present work, the electron, proton, and neutron are considered to have spherical geometries, inside which monochromatic waves spread along parallels. Along each parallel, exactly half of the characteristic wavelength for the proton and electron, and exactly one wavelength for the neutron, is kept within the spherical shell. The result is a rotating soliton. This is possible to the the strictly-defined dispersion and anistropy of the particles. The electric field has only a radial component; the magnetic field a meridional component. By solving for the appropriate boundary conditions, functions defining the distribution of the electromagnetic field inside the particles on their surfaces were obtained. Integrating the distribution functions for the electromagnetic field through the volumes of the particles leads to a system of algebraic equations, the solution of which gives all the basic parameters of particles; charge, rest energy, mass radius, magnetic moment, and spin.