Holographic RG flows and symplectic deformations of N=4 gauged supergravity

Abstract

We study four-dimensional N=4 gauged supergravity with SO(4)× SO(4) SO(3)× SO(3)× SO(3)× SO(3) gauge group in the presence of symplectic deformations. There are in general four electric-magnetic phases corresponding to each SO(3) factor, but two phases of the SO(3) factors embedded in the SO(6) R-symmetry are fixed. One phase can be set to zero by SL(2,R) transformations. The second one gives equivalent theories for any non-vanishing values and can be set to π2 resulting in gauged supergravities that admit N=4 supersymmetric AdS4 vacua. The remaining two phases are truely deformation parameters leading to different SO(4)× SO(4) gauged supergravities. As in the ω-deformed SO(8) maximal gauged supergravity, the cosmological constant and scalar masses of the AdS4 vacuum at the origin of the scalar manifold with SO(4)× SO(4) symmetry do not depend on the electric-magnetic phases. We find N=1 holographic RG flow solutions between N=4 critical points with SO(4)× SO(4) and SO(3)diag× SO(3)× SO(3) or SO(3)× SO(3)diag× SO(3) symmetries. We also give N=2 and N=1 RG flows from these critical points to various non-conformal phases. However, contrary to the ω-deformed SO(8) gauged supergravity, there exist non-trivial supersymmetric AdS4 critical points only for particular values of the deformation parameters within the scalar sectors under consideration.