The holographic supersymmetric Renyi entropy in five dimensions
Luis F. Alday, Paul Richmond, James Sparks
TL;DR
This paper calculates the supersymmetric Renyi entropy for 5D superconformal field theories using localization and confirms the results with a holographic dual black hole solution, demonstrating a precise match in the large N limit.
Contribution
It provides the first computation of supersymmetric Renyi entropy in five dimensions and constructs a holographic dual black hole solution for USp(2N) gauge theories.
Findings
Large N gauge theory results match supergravity computations
Constructed a 1/2 BPS black hole solution in Romans F(4) supergravity
Validated holographic duality for supersymmetric entropies in 5D
Abstract
We compute the supersymmetric Renyi entropy across an entangling three-sphere for five-dimensional superconformal field theories using localization. For a class of USp(2N) gauge theories we construct a holographic dual 1/2 BPS black hole solution of Euclidean Romans F(4) supergravity. The large N limit of the gauge theory results agree perfectly with the supergravity computations.
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