Quantum Physics


The Quantized Structure of the Electron and the Positron. the Neutrino

Authors: Vladimir Leonov

This article was published like chapter 4 in the Leonov's book: Quantum Energetics. Volume 1. Theory of Superunification. Cambridge International Science Publishing, 2010, pp. 262-351. What is an electron? Previously, we believed that an electron has an electric charge and mass that are inseparable from each other. In the theory of Superunification, an entire electric quark is used as the electron charge. An electric quark has no mass. The mass of an electron is formed as a result of spherical deformation of quantized space-time around a central electric charge-quark. Thus itself electric quark cannot be in a free state without mass inside the quantized space-time. Inside a quantized space-time an electric quark acquires mass. The same applies to the quantized positron structure. When the electron and positron approach each other, they annihilate. After annihilation, electric quarks form an electric dipole in the form of an electron neutrino that has no mass. The destruction of spherical deformation around the electron and positron leads to the release of the electromagnetic energy of their mass through the emission of gamma rays.

Comments: 90 Pages, 16 Figures

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[v1] 2019-10-17 10:22:10

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