The Large Numbers Hypothesis: Outline of a self-similar quantum-cosmological Model
H. Genreith
TL;DR
This paper proposes a self-similar quantum-cosmological model that explains Dirac's Large Numbers Hypothesis by integrating Einstein's and Dirac's ideas into a fractal universe framework.
Contribution
It introduces a novel fractal universe model that unifies Einstein's and Dirac's conjectures, providing a consistent explanation for large number coincidences.
Findings
The model offers a unified explanation for elementary particles and cosmic structures.
It supports the idea of a self-similar, fractal universe.
The approach bridges quantum mechanics and cosmology.
Abstract
In 1919 A. Einstein suspected first that gravitational fields could play an essential role in the structure of elementary particles. In 1937, P.A.M. Dirac found a miraculous link between the properties of the visible Universe and elementary particles. Both conjectures stayed alive through the following decades but still no final theory could be derived to this issues. The herein suggested fractal model of the Universe gives a consistent explanation to Dirac's Large Numbers Hypothesis and combines the conjectures of Einstein and Dirac.
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Taxonomy
TopicsDark Matter and Cosmic Phenomena · Cosmology and Gravitation Theories · Quantum Mechanics and Applications