de Broglie wave and electromagnetic travelling wave model of electron and other charged particles

The original wave theory proposed by de Broglie necessitates a stationary (localized) monochromatic plane wave of high frequency nu(o) associated with a particle. As the particle moves, the de Broglie wavelength appears as an observable (a relativistic effect). The nature and interpretation of high frequency oscillations remained unrevealed so far. This paper presents a self-trapped circular electromagnetic (EM) travelling wave model of electron (specifically) and of other charged particles in general. Curling EM wave is localized (stationary) and still a plane monochromatic travelling wave, against the customary wave packet approach, where a number of frequencies are made to interfere to build a stationary localized wave packet. The model reveals facts such as interpretation of wave function psi (de Broglie wave) as a relativistic effect of a real wave function and removes the discrepancy of very high phase velocity (c(2)/v) associated with it. The model also incorporates zitterbewegung of electron and 4 pi rotation needed, for a complete round of wave cycle. (C) 2014 Physics Essays Publication.