Line and surface defects in 5D N=2 SCFT from matter-coupled F(4) gauged supergravity

Abstract

We study supersymmetric solutions of matter-coupled F(4) gauged supergravity in the forms of AdS2× S3- and AdS3× S2-sliced domain walls with a non-vanishing two-form field from the supergravity multiplet. These two types of solutions holographically describe conformal line and surface defects within five-dimensional N=2 SCFTs, respectively. In the case of SO(3)× SO(3) gauge group obtained by coupling F(4) supergravity to three vector multiplets, we find charged domain wall solutions describing holographic RG flows between two supersymmetric AdS6 vacua with a running two-form field supporting the line and surface defects. For a particular case of one vector multiplet with SO(3)× U(1) gauge group, we find solutions describing RG flows from an AdS6 vacuum to physically acceptable singular geometries in the presence of defects. This class of solutions can be uplifted to type IIB theory using a consistent truncation obtained from SO(5,5) exceptional field theory with half-maximal structures.