Superpropagators for explicitly broken 3D-supersymmetric theories

J.L. Boldo; L.P. Colatto; M.A. De Andrade; O.M. Del Cima; J.A.; Helayel-Neto

arXiv:hep-th/9908190·hep-th·October 31, 2009

Superpropagators for explicitly broken 3D-supersymmetric theories

J.L. Boldo, L.P. Colatto, M.A. De Andrade, O.M. Del Cima, J.A., Helayel-Neto

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TL;DR

This paper introduces a systematic algorithm for deriving superpropagators in broken 3D supersymmetric theories, analyzing how explicit breaking terms affect radiative corrections and renormalization.

Contribution

It presents a new algorithm for calculating superpropagators in explicitly broken 3D supersymmetric theories, including effects of radiative corrections and renormalization.

Findings

01

Explicit breaking terms induce 1-loop radiative corrections.

02

Shifted superpropagators clarify renormalization effects.

03

The method simplifies analysis of broken supersymmetric theories.

Abstract

A systematic algorithm to derive superpropagators in the case of either explicitly or spontaneously broken supersymmetric three-dimensional theories is presented. We discuss how the explicit breaking terms that are introduced at tree-level induce 1-loop radiative corrections to the effective action. We also point out that the renormalisation effects and the breaking-inducing-breaking mechanism become more immediate whenever we adopt the shifted superpropagators discussed in this letter.

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