Predictions from extra dimensions

Steven C. Strausz

arXiv:2110.10023·physics.gen-ph·January 2, 2022

Predictions from extra dimensions

Steven C. Strausz

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TL;DR

This paper explores a model where electroweak symmetry and neutrino properties are derived from extra-dimensional geometries, predicting fundamental constants and neutrino characteristics.

Contribution

It introduces a novel approach using hypertorus representations to predict electroweak parameters and neutrino features, providing new insights into particle physics.

Findings

01

Electroweak mixing angle and fine structure constant are predicted.

02

Number of neutrino families and mixing matrix are derived.

03

Neutrino oscillations modeled as spheroid perturbations on hypertorus.

Abstract

By representing the electroweak gauge symmetry group $S U (2) \times U (1)$ by a hypertorus $S_{2} \times S_{1}$ , the electroweak mixing angle and the fine structure constant are predicted. By representing neutrinos as oscillating spheroid perturbations on the same hypertorus, the number of neutrino families and the neutrino mixing matrix are predicted.

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Taxonomy

TopicsParticle physics theoretical and experimental studies · Neutrino Physics Research · Dark Matter and Cosmic Phenomena