Runaway Dynamics and Supersymmetry Breaking

K.-I. Izawa; Fuminobu Takahashi; T.T. Yanagida; Kazuya Yonekura

arXiv:0902.3854·hep-th·June 19, 2009

Runaway Dynamics and Supersymmetry Breaking

K.-I. Izawa, Fuminobu Takahashi, T.T. Yanagida, Kazuya Yonekura

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TL;DR

This paper investigates how to stabilize runaway behaviors in supersymmetric SU(N_C) gauge theories with fewer flavors than colors by introducing singlets and perturbative corrections, leading to local minima of supersymmetry breaking.

Contribution

It demonstrates a method to stabilize runaway potentials in supersymmetric gauge theories using singlets and perturbative Kahler potential corrections.

Findings

01

Runaway behavior can be stabilized near N_F ≈ N_C.

02

Local minima of supersymmetry breaking are achievable.

03

Perturbative corrections play a key role in stabilization.

Abstract

Supersymmetric SU(N_C) gauge theories possess runaway-type superpotentials for N_F < N_C, where N_F is the flavor number of massless quarks. We show that the runaway behavior can be stabilized for N_F nearly equal to N_C by introducing singlets with the aid of perturbative corrections to the Kahler potential, generating (local) minima of supersymmetry breaking.

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