The noncommutative standard model, post- and predictions

Thomas Schucker

arXiv:1003.5593·hep-th·March 30, 2010·1 cites

The noncommutative standard model, post- and predictions

Thomas Schucker

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TL;DR

This paper explores how the standard model of particle physics can be derived from noncommutative geometry, assessing its strengths and limitations, and discusses potential postdictions and predictions from this unification approach.

Contribution

It provides an analysis of deriving the standard model from noncommutative geometry and discusses the resulting theoretical predictions and implications.

Findings

01

Assessment of the standard model's strengths and weaknesses

02

Derivation of the standard model from noncommutative geometry

03

Predictions and postdictions related to particle physics

Abstract

I try to assess the weak and strong points of the standard model of electro-magnetic, weak and strong forces, how it can be derived from general relativity by generalizing Riemannian to noncommutative geometry and what post- and predictions this unification of all four forces entails in particle physics.

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Taxonomy

TopicsNoncommutative and Quantum Gravity Theories · Quantum Mechanics and Applications · Advanced Mathematical Theories and Applications