Local supersymmetry: variations on a theme by Volkov and Soroka

We revisit the work by Volkov and Soroka on spontaneously broken local supersymmetry. It is demonstrated for the first time that, for specially chosen parameters of the theory, the Volkov-Soroka action is invariant under two different local supersymmetries. One of them is present for arbitrary values of the parameters and acts on the Goldstino, while the other supersymmetry emerges only in a special case and leaves the Goldstino invariant. The former can be used to gauge away the Goldstino, and then the resulting action coincides with that proposed by Deser and Zumino for consistent supergravity in the first-order formalism. In this sense, pure N=1 supergravity is a special case of the Volkov-Soroka theory, although it was not discovered by these authors. We also explain how the Volkov-Soroka approach allows one to naturally arrive at the 1.5 formalism. Our analysis provides a nonlinear realization approach to construct unbroken N=1 Poincare supergravity.

Automated summary

This paper revisits the work of Volkov and Soroka on spontaneously broken local supersymmetry. It is shown for the first time that, for specially chosen theory parameters, the Volkov-Soroka action is invariant under two different local supersymmetries. One acts on the Goldstino for arbitrary parameter values, while the other emerges only in a special case and leaves the Goldstino unchanged. The former can be used to gauge away the Goldstino and obtain the action proposed by Deser and Zumino for consistent supergravity. In this sense, pure N=1 supergravity is a special case of the Volkov-Soroka theory, although not discovered by these authors. The paper also explains how the Volkov-Soroka approach naturally leads to the 1.5 formalism. Our analysis provides a nonlinear realization approach for constructing unbroken N=1 Poincare supergravity.