N=2-Maxwell-Chern-Simons model with anomalous magnetic moment coupling   via dimensional reduction

H.R. Christiansen; M.S. Cunha; J.A. Helayel-Neto; L.R.U. Manssur and; A.L.M.A. Nogueira (CBPF - Rio de Janeiro)

arXiv:hep-th/9802096·hep-th·October 31, 2009

N=2-Maxwell-Chern-Simons model with anomalous magnetic moment coupling via dimensional reduction

H.R. Christiansen, M.S. Cunha, J.A. Helayel-Neto, L.R.U. Manssur and, A.L.M.A. Nogueira (CBPF - Rio de Janeiro)

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TL;DR

This paper constructs an N=2 supersymmetric model in three dimensions via dimensional reduction, featuring a Chern-Simons term and an anomalous magnetic moment coupling, advancing the understanding of supersymmetric gauge theories.

Contribution

It introduces a novel N=2 supersymmetric model with specific couplings derived from a higher-dimensional theory, including a genuine Chern-Simons term and anomalous magnetic moment interaction.

Findings

01

Derived the N=2-D=3 model through dimensional reduction.

02

Identified a genuine Chern-Simons term in the model.

03

Established the presence of anomalous magnetic moment coupling.

Abstract

An N=1--supersymmetric version of the Cremmer-Scherk-Kalb-Ramond model with non-minimal coupling to matter is built up both in terms of superfields and in a component-field formalism. By adopting a dimensional reduction procedure, the N=2--D=3 counterpart of the model comes out, with two main features: a genuine (diagonal) Chern-Simons term and an anomalous magnetic moment coupling between matter and the gauge potential.

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