Holographic duals for five-dimensional superconformal quantum field theories

TL;DR

This paper constructs new Type IIB supergravity solutions with $AdS_6 imes S^2$ geometry, serving as holographic duals to five-dimensional superconformal quantum field theories, thus enabling better theoretical understanding of these non-renormalizable UV fixed points.

Contribution

It introduces a family of explicit supergravity solutions with multiple asymptotic regions, representing near-horizon limits of intersecting five-branes, as holographic duals for 5D superconformal theories.

Findings

Solutions have $L \\geq 3$ asymptotic regions matching five-brane configurations.

These solutions are candidates for holographic duals to 5D superconformal field theories.

They provide a new geometric framework for studying non-renormalizable UV fixed points.

Abstract

We construct global solutions to Type IIB supergravity with 16 residual supersymmetries whose space-time is $AdS_6 \times S^2$ warped over a Riemann surface. Families of solutions are labeled by an arbitrary number $L\geq 3$ of asymptotic regions, in each of which the supergravity fields match those of a $(p,q)$ five-brane, and may therefore be viewed as near-horizon limits of fully localized intersections of five-branes in Type IIB string theory. These solutions provide compelling candidates for holographic duals to a large class of five-dimensional superconformal quantum field theories which arise as non-trivial UV fixed points of perturbatively non-renormalizable Yang-Mills theories, thereby making them more directly accessible to quantitative analysis.