Supersymmetric AdS4 black holes from matter-coupled N=3,4 gauged supergravities
Abstract
We study supersymmetric AdS4 black holes in matter-coupled N=3 and N=4 gauged supergravities in four dimensions. In N=3 theory, we consider N=3 gauged supergravity coupled to three vector multiplets and SO(3)× SO(3) gauge group. The resulting gauged supergravity admits two N=3 supersymmetric AdS4 vacua with SO(3)× SO(3) and SO(3) symmetries. We find an AdS2× H2 solution with SO(2)× SO(2) symmetry and an analytic solution interpolating between this geometry and the SO(3)× SO(3) symmetric AdS4 vacuum. For N=4 gauged supergravity coupled to six vector multiplets with SO(4)× SO(4) gauge group, there exist four supersymmetric AdS4 vacua with SO(4)× SO(4), SO(4)× SO(3), SO(3)× SO(4) and SO(3)× SO(3) symmetries. We find a number of AdS2× S2 and AdS2× H2 geometries together with the solutions interpolating between these geometries and all, but the SO(3)× SO(3), AdS4 vacua. These solutions provide a new class of AdS4 black holes with spherical and hyperbolic horizons dual to holographic RG flows across dimensions from N=3,4 SCFTs in three dimensions to superconformal quantum mechanics within the framework of four-dimensional gauged supergravity.
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