Holographic realization of gauge mediated supersymmetry breaking

TL;DR

This paper uses holography to model strongly coupled hidden sectors in gauge mediation, enabling the computation of current correlators through weakly curved geometries, with a simplified example illustrating the approach.

Contribution

It introduces a holographic framework to calculate gauge mediation correlators in strongly coupled hidden sectors, advancing the theoretical modeling of supersymmetry breaking.

Findings

Holographic methods can effectively model strongly coupled hidden sectors.

Current correlators are computable via weakly curved geometries.

A toy example demonstrates the practical application of the framework.

Abstract

The general gauge mediation scenario provides a framework in which properties of a visible sector with soft supersymmetry breaking are computed from current correlation functions in the supersymmetry breaking hidden sector. In this paper we will use holography to model strongly coupled hidden sectors by weakly curved geometries and describe how the current correlators relevant for general gauge mediation are computed by holographic methods. We illustrate the general setup by a toy example which captures most of the relevant features.