Noncompact gauging of N=2 7D supergravity and AdS/CFT holography

Abstract

Half-maximal gauged supergravity in seven dimensions coupled to n vector multiplets contains n+3 vectors and 3n+1 scalars parametrized by R+× SO(3,n)/SO(3)× SO(n) coset manifold. The two-form field in the gravity multiplet can be dualized to a three-form field which admits a topological mass term. Possible non-compact gauge groups take the form of G0× H⊂ SO(3,n) with a compact group H. G0 is one of the five possibilities; SO(3,1), SL(3,R), SO(2,2), SO(2,1) and SO(2,2)× SO(2,1). We investigate all of these possible non-compact gauge groups and classify their vacua. Unlike the gauged supergravity without a topological mass term, there are new supersymmetric AdS7 vacua in the SO(3,1) and SL(3,R) gaugings. These correspond to new N=(1,0) superconformal field theories (SCFT) in six dimensions. Additionally, we find a class of AdS5× S2 and AdS5× H2 backgrounds with SO(2) and SO(2)× SO(2) symmetries. These should correspond to N=1 SCFTs in four dimensions obtained from twisted compactifications of six-dimensional field theories on S2 or H2. We also study RG flows from six-dimensional N=(1,0) SCFT to N=1 SCFT in four dimensions and RG flows from a four-dimensional N=1 SCFT to a six-dimensional SYM in the IR. The former are driven by a vacuum expectation value of a dimension-four operator dual to the supergravity dilaton while the latter are driven by vacuum expectation values of marginal operators.