Dimensional transmutation and symmetry breaking in Maxwell- Chern-Simons   scalar QED

F.S.Nogueira; N.F.Svaiter (CBPF)

arXiv:hep-th/9509109·hep-th·June 26, 2015

Dimensional transmutation and symmetry breaking in Maxwell- Chern-Simons scalar QED

F.S.Nogueira, N.F.Svaiter (CBPF)

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TL;DR

This paper explores how dimensional transmutation and symmetry breaking occur in Maxwell-Chern-Simons scalar QED using non-perturbative methods, revealing that a non-zero Chern-Simons mass stabilizes the broken symmetry vacuum.

Contribution

It introduces a non-perturbative analysis of symmetry breaking in Maxwell-Chern-Simons scalar QED, highlighting the stabilizing effect of a non-zero Chern-Simons mass.

Findings

01

Symmetry breaking vacuum is more stable with non-zero Chern-Simons mass.

02

Effective potential indicates a broken symmetry state.

03

Dimensional transmutation occurs in the model.

Abstract

The mechanism of dimensional transmutation is discussed in the context of Maxwell-Chern-Simons scalar QED. The method used is non-perturbative. The effective potential describes a broken symmetry state. It is found that the symmetry breaking vacuum is more stable when the Chern-Simons mass is different from zero. Pacs number: 11.10.Ef, 11.10.Gh.

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