Field theories with (2,0) AdS supersymmetry in N=1 AdS superspace

Abstract

In three dimensions, it is known that field theories possessing extended (p,q) anti-de Sitter (AdS) supersymmetry with N=p+q ≥ 3 can be realised in (2,0) AdS superspace. Here we present a formalism to reduce every field theory with (2,0) AdS supersymmetry to N=1 AdS superspace. As nontrivial examples, we consider supersymmetric nonlinear sigma models formulated in terms of N=2 chiral and linear supermultiplets. The (2,0) (1,0) AdS reduction technique is then applied to the off-shell massless higher-spin supermultiplets in (2,0) AdS superspace constructed in [1]. As a result, for each superspin value s, integer ( s= s) or half-integer ( s= s+1/2), with s=1,2,… , we obtain two off-shell formulations for a massless N=1 superspin- s multiplet in AdS3. These models prove to be related to each other by a superfield Legendre transformation in the flat superspace limit, but the duality is not lifted to the AdS case. Two out of the four series of N=1 supersymmetric higher-spin models thus derived are new. The constructed massless N=1 supersymmetric higher-spin actions in AdS3 are used to formulate (i) higher-spin supercurrent multiplets in N=1 AdS superspace; and (ii) new topologically massive higher-spin off-shell supermultiplets. Examples of N=1 higher-spin supercurrents are given for models of a complex scalar supermultiplet. We also present two new off-shell formulations for a massive N=1 gravitino supermultiplet in AdS3.