Finite volume spectrum of N=1 superminimal models perturbed by   $\Phi_{13}$

Arpad Hegedus

arXiv:0710.2417·hep-th·November 26, 2008

Finite volume spectrum of N=1 superminimal models perturbed by $\Phi_{13}$

Arpad Hegedus

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TL;DR

This paper extends the nonlinear integral equation method to analyze the finite volume spectrum of N=1 superminimal models perturbed by 13, and also completes previous studies of the supersymmetric sine-Gordon model by including breather states.

Contribution

It introduces an extension of the NLIE technique to N=1 superminimal models perturbed by 13 and completes the finite volume spectrum analysis of the supersymmetric sine-Gordon model.

Findings

01

Extended NLIE to N=1 superminimal models with 13 perturbation.

02

Analyzed the attractive regime and breather states in supersymmetric sine-Gordon.

03

Provided detailed finite volume spectrum results for these models.

Abstract

We describe an extension of the nonlinear integral equation (NLIE) tehnique to N=1 superminimal models perturbed by $Φ_{13}$ . Along the way, we also complete our previous studies of the finite volume spectrum of the N=1 supersymmetric sine-Gordon model by considering the attractive regime and more specifically, breather states.

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