4D-tetraquark is the basis of quantum gravity

Leonov Vladimir

For citation:

Leonov Vladimir. 4D-tetraquark is the basis of quantum gravity. – Preprint: ResearchGate, December 2023, Download PDF DOI: 10.13140/RG.2.2.16754.68801, https://www.researchgate.net/publication/376170636

Abstract

The theory of quantum gravity with 4D-tetraquark (quanton) was developed by me in 1996-2000 [1-3] and it was published in full in 2010 as part of the Superunification theory, which is a Unified Field Theory that unifies quantum gravity, electromagnetism, nuclear and electroweak forces from a unified perspective [4]. Nothing like this has been done in world theoretical physics during this time. I showed in this paper only the basic principles of quantum gravity, which are fully contained in my books [4, 172] and other papers. I present new research results that have not been previously published. This applies to gravity in the strong gravitational field of a black hole when falling into which the mass of a body decreases to zero (Table 1 and Fig. 29). We can observe the glow of a black hole as a result of a defect in the mass of a body (particle) when it falls onto a black hole (Fig. 30). In this case, the particles decay into quarks, which are absorbed by the black hole on its surface. Gravitational forces are nullified on the surface of a black hole as a result of the complete decay of mass into quarks. Quantum gravity is gravity with a variable speed of light (Table 3 and Fig. 32). Gravity cannot exist in nature at a constant speed of light. Einstein's main mistake was postulating the speed of light in general relativity, which led the theory of gravity into a geometric dead end. It has been established that the speed of light is a function of the intensity of gravity. The photon stops and decays in the superstrong gravitational field on the surface of the black hole, making it invisible.

85 Pages, 32 Figures. 3 Table.

Key words: 4D-tetraquark, magnetic quark, theory of Superunification, quantum gravity, superstrong gravitational field, black hole, dark matter, dark energy, quantum space-time.