Gravitational diagram for quantum gravity with imaginary mass and gravitational well inside a quantized vacuum

 

Leonov Vladimir

January 2025

https://orcid.org/0000-0001-5270-0824

https://www.researchgate.net/profile/Leonov-Vladimir/research

For citation:

Leonov Vladimir. Renormalization of gravitational potentials for quantum gravity with 4D-tetraquarks. – Preprint: ResearchGate, January 2025, Download PDF: DOI: 10.13140/RG.2.2.10289.29285

Abstract

            So, we have proven that the basis of the nature of gravity is the gravitational well for the imaginary mass M₀ inside the quantized vacuum when the force of gravity is induced inside the quantized vacuum as a result of its spherical deformation. We were the first to be able to describe mathematically the state of the gravitational well on a gravitational diagram inside a quantized vacuum in a theory of quantum gravity with 4D-tetraquarks. None of the theoretical physicists in the world have been able to do anything like this despite the large number of publications on the topic of quantum gravity, passing off their wishes as a real event.

            The criteria for identifying quantum gravity have five main points:

            1) the presence of a gravity carrier particle in the form of 4D-tetraquark;

            2) formation of a quantized vacuum from 4D-tetraquarks;

            3) spherical deformation of the quantized vacuum around the imaginary mass M₀;

            4) formation of a gravitational well around the imaginary mass M₀ as a gravitational           field;

            5) mandatory verification of the theory of quantum gravity for compliance with Newton's          law of gravitation.

            If any paper cannot meet the specified criteria for identifying quantum gravity with 4D-tetraquarks, then it has nothing to do with the theory of quantum gravity. We have no right to write empty papers on the topic of quantum gravity without having a particle of gravity and its parameters.

9 pages, 4 figures.

Key word: quantum gravity, quantized vacuum, imaginary mass, 4D-tetraquark, spherical deformation, gravitational well, gravitational diagram.

Content

1. Introduction

2. Spherical deformation of quantized vacuum for imaginary mass

3. Gravitational diagram for imaginary mass M₀ inside deformed quantized vacuum

4. There is a gravitational well around an imaginary mass inside a quantized vacuum

5. Conclusion

References