Gravitational Description and Graphics of a Wormhole Structure—A Galactic Megamaximon

Khlestkov, Yu. A.; Lukashina, N. Yu.; Lukashin, M. Yu.; Lukashin, P. Yu.; Trushkin, N. S.

doi:10.4236/jmp.2019.1011086

JMP

2019

DOI: 10.4236/jmp.2019.1011086

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Gravitational Description and Graphics of a Wormhole Structure—A Galactic Megamaximon

Yu. A. Khlestkov¹,

N. Yu. Lukashina²,

M. Yu. Lukashin³

et al.

Abstract: Using the new exact solution of Einstein and Maxwell equations in the general relativity theory, they studied the internal structure of a geometric object with a nontrivial topology, the wormhole. They showed that the galactic black hole recently discovered by astronomers and astrophysicists as the part of the Event Horizon Telescope project with the radius about 10 16 cm and the mass of about 10 43 g can be a wormhole almost neutralized in charge with parameters close to critical-megamaximon, the radius of it… Show more

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2020

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Gravitational Space-Time Quantization for Charged Wormholes and the Diophantine Uncertainty Relation

Khlestkov¹,

Khlestkov²,

Lukashin³

et al. 2020

JMP

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This research work proceeds from the assumption, which was still considered by Einstein, that the quantization of gravity does not require additional external procedures: quantum phenomena can be a consequence of the properties of the universal gravitational interaction, which maps any physical field upon the space-time geometry. Therefore, an attempt is made in this research work to reduce the quantization of physical fields in GRT to the space-time quantization. Three reasons for quantum phenomena are considered: Partition of space-time into a set of unconnected Novikov's R-and T-domains impenetrable for light paths; the set is generated by the invariance of Einstein's equations with respect to dual mappings; The existence of electric charge quanta of wormholes, which geometrically describe elementary particles in GRT. This gives rise to a discrete spectrum of their physical and geometric parameters governed by Diophantine equations. It is shown that the fundamental constants (electric charge, rest masses of an electron and a proton) are interconnected arithmetically; The existence of the so-called Diophantine catastrophe, when fluctuations in the values of physical constants tending to zero lead to fluctuations in the number of electric charges and the number of nucleons at the wormhole throats, which tend to infinity, so that the product of the increments of these numbers by the increment of physical constants forms a relation equivalent to the uncertainty relation in quantum mechanics. This suggests that space-time cannot but fluctuate, and, moreover, its fluctuations are bounded from below, so that all processes become chaotic, and the observables become averaged over this chaos.

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Gravitational Space-Time Quantization for Charged Wormholes and the Diophantine Uncertainty Relation

Khlestkov¹,

Khlestkov²,

Lukashin³

et al. 2020

JMP

Self Cite

View full text Add to dashboard Cite

show abstract

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Gravitational Description and Graphics of a Wormhole Structure—A Galactic Megamaximon

Cited by 1 publication

References 5 publications

Gravitational Space-Time Quantization for Charged Wormholes and the Diophantine Uncertainty Relation

Gravitational Space-Time Quantization for Charged Wormholes and the Diophantine Uncertainty Relation

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