Vladimir Leonov
Book: ResearchGate
For citation
Leonov Vladimir (2010). Chapter 7. Nature of non-radiation and radiation of the orbital electron. – From the book: Leonov V. S. Quantum Energetics. Volume 1. Theory of Superunification. Cambridge International Science Publishing, 2010, 745 pages, pp. 514-585. – Book: ResearchGate, PDF: https://www.researchgate.net/publication/357838507
Abstract
One of the fundamental problems of quantum physics is the problem of non-radiation and radiation of an orbital electron that rotates around the atomic nucleus along a complex trajectory in the form of an electron cloud. The electron does not have a Bohr circular ideal orbit; it falls on the nucleus of an atom, changing the energy of the electric field between the nucleus and the electron. In this case, the electron must radiate in accordance with Maxwell's equations. But an electron does not radiate in a complicated stationary orbit; Maxwell's equations do not work for an orbital electron. This is the paradox of quantum electrodynamics, which has an explanation in the theory of Superunification, when a gravitational well is formed inside the quantized space-time around the atomic nucleus. Previously, the gravitational well was never taken into account when describing the atomic nucleus. In this case, we have a quantum paradox when an increase in the electromagnetic energy of an orbiting electron is compensated by a decrease in the gravitational energy of an electron as it falls to the bottom of the gravitational well of the nucleus. On the whole, the energy of the electron-nucleus system is constant, and the orbiting electron does not radiate energy. The radiation of a photon by an orbital electron is possible as a result of a defect in its mass near the atomic nucleus when the electron reaches a speed close to the speed of light as a result of the re-emission of photon energy. Paradoxically, but inside the gravitational well of an atomic nucleus, the relativistic laws of increasing the mass of an electron to infinity do not work when its speed increases to the speed of light. This is the fundamental property of the gravitational well of the atomic nucleus when quantum gravity comes to the aid of the physics of the atomic nucleus.
Key words: photon; non-radiation; radiation; orbital electron; atomic nucleus; electron cloud; Maxwell equations; quantized space-time; gravitational well; electron-nucleus system; defect of mass; speed of light; quantum gravity; physics of the atomic nucleus.
Comments: 72 pages, 13 figures.
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