English

Three-form multiplet and supersymmetry breaking

High Energy Physics - Theory 2017-10-25 v2

Abstract

Recently, a nilpotent real scalar superfield VV was introduced in arXiv:1702.02423 as a model for the Goldstino. It contains only two independent component fields, the Goldstino and the auxiliary DD-field. Here we first show that VV can equivalently be realised as a constrained three-form superfield. We demonstrate that every irreducible Goldstino superfield (of which the Goldstino is the only independent component field) can be realised as a descendant of VV which is invariant under local rescalings VeτVV \to {\rm e}^\tau V, where τ\tau is an arbitrary real scalar superfield. We next propose a new Goldstino supermultiplet which is described by a nilpotent three-form superfield Y\cal Y that is a variant formulation for the nilpotent chiral superfield, which is often used in off-shell models for spontaneously broken supergravity. It is shown that the action describing the dynamics of Y\cal Y may be obtained from a supersymmetric nonlinear σ\sigma-model in the infrared limit. Unlike VV, the Goldstino superfield Y\cal Y contains two independent auxiliary fields, F=H+iGF= H+{\rm i} G, of which HH is a scalar and GG is the field strength of a gauge three-form. When Y\cal Y is coupled to supergravity, both HH and GG produce positive contributions to the cosmological constant. While the contribution from HH is uniquely determined by the parameter of the supersymmetry breaking in the action, the contribution from GG is dynamical.

Keywords

Cite

@article{arxiv.1705.07700,
  title  = {Three-form multiplet and supersymmetry breaking},
  author = {Evgeny I. Buchbinder and Sergei M. Kuzenko},
  journal= {arXiv preprint arXiv:1705.07700},
  year   = {2017}
}

Comments

18 pages; minor corrections

R2 v1 2026-06-22T19:54:36.486Z