Towards Supergravity Duals of Chiral Symmetry Breaking in   Sasaki-Einstein Cascading Quiver Theories

Benjamin A. Burrington; James T. Liu; Manavendra Mahato; Leopoldo; A. Pando Zayas

arXiv:hep-th/0504155·hep-th·November 11, 2009

Towards Supergravity Duals of Chiral Symmetry Breaking in Sasaki-Einstein Cascading Quiver Theories

Benjamin A. Burrington, James T. Liu, Manavendra Mahato, Leopoldo, A. Pando Zayas

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TL;DR

This paper constructs a supersymmetric deformation of the complex structure on Sasaki-Einstein cones, providing a holographic dual framework for chiral symmetry breaking in cascading quiver theories.

Contribution

It introduces a first order deformation of the complex structure on Y^{p,q} spaces, explicitly checks supersymmetry, and relates this to holographic duals of chiral symmetry breaking.

Findings

01

Deformation preserves supersymmetry.

02

Constructs a solution with D3 and fractional D3 branes.

03

Links geometric deformation to chiral symmetry breaking.

Abstract

We construct a first order deformation of the complex structure of the cone over Sasaki-Einstein spaces Y^{p,q} and check supersymmetry explicitly. This space is a central element in the holographic dual of chiral symmetry breaking for a large class of cascading quiver theories. We discuss a solution describing a stack of N D3 branes and M fractional D3 branes at the tip of the deformed spaces.

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