Structure of physical space and new interaction in nature (theory and   experiments)

Yu.A. Baurov (Central Scientific Research Institute of Machine; Building; Korolev; Moscow Region; Russia)

arXiv:hep-ph/9907239·hep-ph·May 23, 2007

Structure of physical space and new interaction in nature (theory and experiments)

Yu.A. Baurov (Central Scientific Research Institute of Machine, Building, Korolev, Moscow Region, Russia)

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TL;DR

This paper proposes a theoretical model explaining the formation of physical space from discrete objects, predicts global anisotropy and new interactions, and discusses supporting experimental data.

Contribution

It introduces a novel model based on byuons that explains the structure of space and predicts new interactions and anisotropy in nature.

Findings

01

Existence of global anisotropy in observable space

02

Prediction of new fundamental interactions

03

Discussion of recent experimental data supporting the model

Abstract

In the talk, on the basis of the author's model of formation of the observable physical space $R_{3}$ in the process of dynamics of special discrete one-dimensional vectorial objects, byuons, while minimizing their potential energy of interaction in the one-dimensional space $R_{1}$ formed by them, the existence of global anisotropy of observable space and new interaction in nature, is shown. The data of recent experiments are given and discussed.

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Taxonomy

TopicsComputational Physics and Python Applications · Scientific Research and Philosophical Inquiry