Fragmentary Electrodynamics of Solitons Emitted by Atoms

Abstract

In the recent years there was published some papers in which the photons are represented as electromagnetic solitons [1,2,3]. All particles - solitons - represent some electromagnetic field restricted in a very small volume, length, cross-section and propagate in vacuum with light velocity in one and the same directions at a very great unrestricted distances [3]. These unordinary properties of the electromagnetic field - soliton - require some more detailed investigations of the dynamics of interactions of charged particles and electromagnetic fields. In this paper I make an attempt to solve in part (fragmentary) some questions about energy density of the soliton, electrodynamics of soliton and the simplest hydrogen atom, the acceleration of a charged particle, the path of the electron wile it changes its position, the emitted electromagnetic soliton energy and the electron in a stationary state. The descriptions are restricted only to the properties of the solitons in paper [3] and to the hydrogen atom, but I think that obtained results could be applied to the more complicated systems.

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