Three-point functions of higher-spin supercurrents in 4D N=1 SCFT: general formalism for arbitrary superspins

Abstract

We analyse the general structure of the three-point functions involving conserved higher-spin ``vector-like" supercurrents Js(z) := Jα(s) α(s)(z) in four-dimensional N=1 superconformal field theory. Using the constraints of superconformal symmetry and superfield conservation equations, we utilise a computational approach to analyse the general structure of the three-point function Js1(z1) \, J's2(z2) \, J''s3(z3) and provide a general classification of the results. We demonstrate that the three-point function is fixed up to 2 (si) + 2 independent conserved structures, which we propose to hold for arbitrary superspins. In addition, we show that the conserved structures can be classified as parity-even or parity-odd in superspace based on their transformation properties under superinversion.

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