Generalised superconformal higher-spin multiplets

Abstract

We propose generalised N=1 superconformal higher-spin (SCHS) gauge multiplets of depth t, α(n)α(m)(t), with n≥ m ≥ 1. At the component level, for t>2 they contain generalised conformal higher-spin (CHS) gauge fields with depths t-1, t and t+1. The supermultiplets with t=1 and t=2 include both ordinary and generalised CHS gauge fields. Super-Weyl and gauge invariant actions describing the dynamics of α(n)α(m)(t) on conformally-flat superspace backgrounds are then derived. For the case n=m=t=1, corresponding to the maximal-depth conformal graviton supermultiplet, we extend this action to Bach-flat backgrounds. Models for superconformal non-gauge multiplets, which are expected to play an important role in the Bach-flat completions of the models for (t)α(n)α(m), are also provided. Finally we show that, on Bach-flat backgrounds, requiring gauge and Weyl invariance does not always determine a model for a CHS field uniquely.