Cosmological Implications of the Tetron Model of Elementary Particles

Bodo Lampe

arXiv:0908.2586·astro-ph.CO·June 11, 2010

Cosmological Implications of the Tetron Model of Elementary Particles

Bodo Lampe

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TL;DR

This paper proposes a modified Big Bang model based on tetron constituents, linking spacetime emergence to tetron bound states, and predicts dark matter ratios, offering new insights into cosmology.

Contribution

It introduces a tetron-based cosmological model connecting spacetime formation with elementary particles, providing explanations for inflation and dark matter.

Findings

01

Dark matter ratio predicted as 1:5

02

Spacetime metric constructed from tetron constituents

03

Provides a natural dark matter candidate

Abstract

Based on a possible solution to the tetron spin problem, a modification of the standard Big Bang scenario is suggested, where the advent of a spacetime manifold is connected to the appearance of tetronic bound states. The metric tensor is constructed from tetron constituents and the reason for cosmic inflation is elucidated. Furthermore, there are natural dark matter candidates in the tetron model. The ratio of ordinary to dark matter in the universe is calculated to be 1:5.

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Taxonomy

TopicsComputational Physics and Python Applications · Geophysics and Gravity Measurements · Cosmology and Gravitation Theories