N=2 supergravity and supercurrents

TL;DR

This paper classifies all N=2 supercurrent multiplets in four dimensions by constructing a linearized supergravity action with a tensor compensator, revealing new formulations and dualities in supergravity theories.

Contribution

It introduces a minimal off-shell formulation of N=2 supergravity with a tensor compensator and explores its dualities and reductions to N=1 supergravity.

Findings

Derived a linearized N=2 supergravity action with a tensor compensator.

Identified dual formulations of massless multiplets depending on parameters.

Connected the models to known N=1 supergravity formulations and gravitino multiplets.

Abstract

We address the problem of classifying all N=2 supercurrent multiplets in four space-time dimensions. For this purpose we consider the minimal formulation of N=2 Poincare supergravity with a tensor compensator, and derive its linearized action in terms of three N=2 off-shell multiplets: an unconstrained scalar superfield, a vector multiplet, and a tensor multiplet. Such an action was ruled out to exist in the past. Using the action constructed, one can derive other models for linearized N=2 supergravity by applying N=2 superfield duality transformations. The action depends parametrically on a constant non-vanishing real isotriplet g^{ij}=g^{ji} which originates as an expectation value of the tensor compensator. Upon reduction to N=1 superfields, we show that the model describes two dually equivalent formulations for the massless multiplet (1,3/2)+(3/2,2) depending on a choice of g^{ij}. In the case g^{11}=g^{22}=0, the action describes (i) new minimal N=1 supergravity; and (ii) the Fradkin-Vasiliev-de Wit-van Holten gravitino multiplet. In the case g^{12}=0, on the other hand, the action describes (i) old minimal N=1 supergravity; and (ii) the Ogievetsky-Sokatchev gravitino multiplet.