Electron-positron matter waves as oscillations of Minkowski spacetime

Author

Gritsunov, Alexander

Author_Institution

Dept. of Microelectron., Kharkiv Nat. Univ. of Radio Electron., Kharkiv, Ukraine

fYear

2014

fDate

22-24 April 2014

Firstpage

503

Lastpage

504

Abstract

An attempt is made to generalize the basic idea of the self-sufficient potential formalism in electrodynamics (interpretation of electromagnetic phenomena as natural or forced oscillations of the Minkowski spacetime treated as a distributed electromagnetic oscillating system) on the De Broglie waves. Both electrons and positrons are considered as excited modes (oscillations) of a distributed electron-positron oscillating system, not as “hard” particles. Thus, the matter waves are treated as real oscillations of the Minkowski spacetime, not as Born´s “probability waves”.

Keywords

electrodynamics; electromagnetic field theory; electron-positron interactions; wave mechanics; Born probability waves; De Broglie waves; Minkowski spacetime; distributed electromagnetic oscillating system; distributed electron-positron oscillating system; electrodynamics; electromagnetic phenomena; electron-positron matter waves; excited modes; forced oscillations; Electric potential; Electrodynamics; Electromagnetic scattering; Electromagnetics; Equations; Oscillators; Positrons; De Broglie wave; Klein-Gordon equation; Lagrange function; Lorenz gauge; distributed oscillating system; four-vector of generalized coordinates;

fLanguage

English

Publisher

ieee

Conference_Titel

Vacuum Electronics Conference, IEEE International

Conference_Location

Monterey, CA

Type

conf

DOI

10.1109/IVEC.2014.6857710

Filename

6857710