New Supersymmetric and Stable, Non-Supersymmetric Phases in Supergravity and Holographic Field Theory

TL;DR

This paper discovers a new supersymmetric critical point in four-dimensional N=8 supergravity with potential implications for holographic field theories, and analyzes the stability of known critical points, including a novel non-supersymmetric one.

Contribution

It analytically identifies a new N=1 supersymmetric critical point with U(1) x U(1) symmetry and explores its holographic flow, stability, and relation to known points in supergravity.

Findings

New N=1 supersymmetric critical point with U(1) x U(1) symmetry.

The flow to this point has a c_{IR}/c_{UV} ratio of 1/2.

The SO(3) x SO(3) non-supersymmetric point is perturbatively stable.

Abstract

We establish analytically that the potential of N=8 supergravity in four dimensions has a new N=1 supersymmetric critical point with U(1) x U(1) symmetry. We work within a consistent N=1 supersymmetric truncation and obtain the holographic flow to this new point from the N=8 critical point. The operators that drive the flow in the dual field theory are identified and it is suggested the new critical point might represent a new conformal phase in the holographic fermion droplet models with sixteen supersymmetries. The flow also has c_{IR}/c_{UV}} = 1/2. We examine the stability of all twenty known critical points and show that the SO(3) x SO(3) point is a perturbatively stable non-supersymmetric fixed point. We also locate and describe a novel critical point that also has SO(3)\times SO(3) symmetry and is related to the previously known one by triality in a similar manner to the way that the SO(7)^\pm points are related to one another.