Theory of electroweak interactions without spontaneous symmetry breaking

Bing An Li(Department of Physics; University of Kentucky)

arXiv:hep-ph/9903313·hep-ph·May 23, 2007

Theory of electroweak interactions without spontaneous symmetry breaking

Bing An Li(Department of Physics, University of Kentucky)

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TL;DR

This paper develops a novel electroweak theory without spontaneous symmetry breaking, introducing axial-vector symmetry breaking, deriving key mass relations, and proving renormalizability and unitarity, aligning with experimental data.

Contribution

It presents a new electroweak model without spontaneous symmetry breaking, including axial-vector symmetry breaking and consistent mass relations, with proven renormalizability and unitarity.

Findings

01

Derived mass relations for W and Z bosons that match experimental data.

02

Established the theory's renormalizability and unitarity.

03

Introduced axial-vector symmetry breaking as an alternative mechanism.

Abstract

The study of a EW theory without spontaneous symmetry breaking is presented. A new symmetry breaking, axial-vector symmetry breaking, is found. M^{2}_{W}=1/2g^{2}m^{2}_{t}, m^{2}_{Z}=\rho m^{2}_{W}/cos^{2} \theta, and G_{F}=1/(2\sqrt{2}m^{2}_{t}) are obtained and they agree with data. It has been proved that the theory is renormalizable and unitary.

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Taxonomy

TopicsQuantum, superfluid, helium dynamics · Quantum and electron transport phenomena · Atomic and Subatomic Physics Research