Electroweak Theory and Noncommutative Geometry

A. Catal-Ozer (METU; Ankara); T. Dereli (METU,Ankara)

arXiv:hep-th/0102048·hep-th·November 7, 2009

Electroweak Theory and Noncommutative Geometry

A. Catal-Ozer (METU, Ankara), T. Dereli (METU,Ankara)

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TL;DR

This paper formulates a noncommutative extension of the electroweak model, predicting a light Higgs boson around 130 GeV and additional heavy scalar bosons, offering new insights into particle physics beyond the Standard Model.

Contribution

It introduces a noncommutative geometric framework for the electroweak theory using derivations of a su(2) algebra representation, predicting new scalar particles.

Findings

01

Predicts a light Higgs boson of about 130 GeV

02

Forecasts four very heavy scalar bosons

03

Provides a noncommutative geometric formulation of electroweak theory

Abstract

The noncommutative generalisation of the standard electroweak model due to Balakrishna, Gursey and Wali is formulated in terms of the derivations Der_2(M_3) of a three dimensional representation of the su(2) Lie algebra of weak isospin. A light Higgs boson of mass about 130 GeV, together with four very heavy scalar bosons are predicted.

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