Quantum entropy and exact 4d/5d connection

Abstract

We consider the AdS2/CFT1 holographic correspondence near the horizon of rotating five-dimensional black holes preserving four supersymmetries in N=2 supergravity. The bulk partition function is given by a functional integral over string fields in AdS2 and is related to the quantum entropy via the Sen's proposal. Under certain assumptions we use the idea of equivariant localization to non-rigid backgrounds and show that the path integral of off-shell supergravity on the near horizon background, which is a circle fibration over AdS2xS2, reduces to a finite dimensional integral over nV+1 parameters CA, where nV is the number of vector multiplets of the theory while the C0 mode corresponds to a normalizable fluctuation of the metric. The localization solutions, which rely only on off-shell supersymmetry, become after a field redefinition, the solutions found for localization of supergravity on AdS2xS2. We compute the renormalized action on the localization locus and show that, in the absence of higher derivative corrections, it agrees with the four dimensional counterpart computed on AdS2x S2. These results together with possible one-loop contributions can be used to establish an exact connection between five and four dimensional quantum entropies.