Electroweak, strong interactions and Higgs fields as components of   gravity in noncommutative spacetime

Viet Ai Nguyen

arXiv:1510.01405·gr-qc·October 7, 2015·1 cites

Electroweak, strong interactions and Higgs fields as components of gravity in noncommutative spacetime

Viet Ai Nguyen

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TL;DR

This paper introduces a novel noncommutative spacetime model that unifies gravity, gauge interactions, and Higgs fields within a geometric framework, potentially explaining dark matter and cosmic inflation.

Contribution

It proposes a new noncommutative spacetime structure incorporating all fundamental interactions and Higgs fields into a unified geometric action.

Findings

01

Unified geometric framework for gravity and gauge interactions

02

Potential explanation for dark matter and inflation

03

Integration of Higgs fields into spacetime geometry

Abstract

A new noncommutative spacetime of structure $M^{4} \times Z_{2} \times Z_{2}$ is proposed. The generalized Hilbert-Einstein action contains gravity, all known interactions and Higgs field. This theory can also provide a unified geometric framework for multigravity, which might explain the existence of dark matter and inflationary cosmology. In other words, high energy physics has laid out the crude shape of the new spacetime, while cosmology will shed light to the more details of it.

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Taxonomy

TopicsCosmology and Gravitation Theories · Noncommutative and Quantum Gravity Theories · Relativity and Gravitational Theory