Quantum Physics


Two-Rotor Structure of the Photon. Photon Gyroscopic Effect

Authors: Vladimir Leonov

This article was published like chapter 6 in the Leonov's book: Quantum Energetics. Volume 1. Theory of Superunification. Cambridge International Science Publishing, 2010, pp. 421-511. The structure of a photon as a wave particle has long remained incomprehensible to us. Analysis of the Maxwell equations for the electromagnetic field in the vacuum indicates that the spherical wave cannot expand in the relativistic region. This allows us to represent the electromagnetic field of a photon in the form of two rotors: electric and magnetic. These rotors are located in orthogonal planes with the possibility of rotation of the polarization planes. This ensures the constancy of the speed of the photon with the speed of light. Now that we know the two-rotor structure of a photon, we can analyze photon-photons interactions. This is a very important fundamental knowledge that is needed for the development of new quantum technologies: quantum computers, quantum entanglement, quantum generators (lasers) and others.

Comments: 91 Pages, 18 Figures

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[v1] 2019-10-18 01:37:25

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