Motion of a particle and the vacuum

Abstract

We propose the deterministic dynamics of a free particle in a physical vacuum, which is considered as a discrete (quantum) medium. The motion of the particle is studied taking into account its interactions with the medium. It is assumed that this interaction results in the appearance of special virtual excitations, called "inertons," in the vacuum medium in the surroundings of the canonical particle. The solution of the equation of motion shows that a cloud of inertons oscillates around the particle with amplitude =λ v/c, where λ is the de Broglie wavelength, v is the initial velocity of the particle, and c is the initial velocity of the inertons (velocity of light). This oscillating nature of motion is also applied to the particle, and the de Broglie wavelength λ becomes the amplitude of spacial oscillations. The oscillation frequency is given by the relation E=h. The connection of the present model with orthodox nonrelativistic wave mechanics is analyzed.

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