Birth of Universe following Rupture of Fractal Structure Filaments
Valentin A. Rantsev-Kartinov, Christian G. Parigger
TL;DR
This paper explores the fractal structures of the universe, proposing that ruptures in dark-matter filaments could lead to cosmic object formation and universe birth, based on observations of fractal patterns in cosmic structures.
Contribution
It introduces a novel fractal-based model of the universe's structure and suggests a mechanism for universe formation through filament rupture.
Findings
Fractal structures are present in cosmic and stellar cores.
Rupture of dark-matter filaments may trigger universe formation.
Fractals are fundamental in modeling baryonic filaments and dark matter.
Abstract
This work addresses unique characteristics of our Universe, namely fractal structures that consist of coaxial-tubular and wheel-like building blocks. The front view of the tubes may show a wheel, and in turn, the wheel may show radial tubes arranged as spokes. A flexible interconnect originates from magnetic fields. Neutrino astronomy indicates fractal structure in the core of stars and galaxies. Fractals are fundamental for modeling baryonic filaments important in "dark matter" with a topology that can be inferred from radiating cosmic objects. The rupture of dark-matter filaments may cause formation of cosmic objects including birth of the Universe.
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Taxonomy
TopicsNeutrino Physics Research · Child Development and Digital Technology · Astrophysics and Cosmic Phenomena