Dark Matter and Dark Energy are Mirage
Gunn Quznetsov
TL;DR
This paper proposes a probabilistic framework based on Dirac-type equations to explain dark matter and dark energy phenomena, offering a new foundational perspective on gravitation and cosmology.
Contribution
It introduces a novel probabilistic approach to fundamental physics, linking quantum probabilities to gravitational phenomena and explaining dark matter and dark energy as emergent effects.
Findings
Dark matter and dark energy are explained through probabilistic models.
Confinement and asymptotic freedom are derived from probability behaviors.
Provides a new probabilistic foundation for gravitation theory.
Abstract
In arXiv:hep-ph/9812339 the probabilities of point events in space 3 + 1 obey an equation of Dirac type . Masses, moments, energies, spins, etc. are the parameters of the probability distribution of such events. The terms and equations of quark-gluon theories turn out theoretically probabilistic terms and theorems. Confinement and asymptotic freedom are explained by behaviour of such probabolities. And here we have the probabilistic foundations of the theory of gravitation. In these article the Dark Matter and Dark Energy phenomenoms are explained by these results. Knowledge of the elements of linear algebra and differential calculus is sufficient to understand the content of this article
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Taxonomy
TopicsRelativity and Gravitational Theory · Computational Physics and Python Applications · Scientific Research and Discoveries