Two-dimensional SCFTs from matter-coupled 7D N=2 gauged supergravity

Abstract

We study supersymmetric AdS3× M4 solutions of N=2 gauged supergravity in seven dimensions coupled to three vector multiplets with SO(4) SO(3)× SO(3) gauge group and M4 being a four-manifold with constant curvature. The gauged supergravity admits two supersymmetric AdS7 critical points with SO(4) and SO(3) symmetries corresponding to N=(1,0) superconformal field theories (SCFTs) in six dimensions. For M4=2×2 with 2 being a Riemann surface, we obtain a large class of supersymmetric AdS3× 2× 2 solutions preserving four supercharges and SO(2)× SO(2) symmetry for one of the 2 being a hyperbolic space H2, and the solutions are dual to N=(2,0) SCFTs in two dimensions. For a smaller symmetry SO(2), only AdS3× H2× H2 solutions exist. Some of these are also solutions of pure N=2 gauged supergravity with SU(2) SO(3) gauge group. We numerically study domain walls interpolating between the two supersymmetric AdS7 vacua and these geometries. The solutions describe holographic RG flows across dimensions from N=(1,0) SCFTs in six dimensions to N=(2,0) two-dimensional SCFTs in the IR. Similar solutions for M4 being a Kahler four-cycle with negative curvature are also given. In addition, unlike M4=2× 2 case, it is possible to twist by SO(3)diag gauge fields resulting in two-dimensional N=(1,0) SCFTs. Some of the solutions can be uplifted to eleven dimensions and provide a new class of AdS3× M4× S4 solutions in M-theory.