Gapped gravitinos, isospin 12 particles and N=2 partial breaking

Abstract

Using results on topological band theory of phases of matter and discrete symmetries, we study topological properties of band structure of physical systems involving spin 12 and 32 fermions. We apply this approach to study partial breaking in 4D N=2 gauged supergravity in rigid limit and we describe the fermionic gapless mode in terms of chiral anomaly. We study as well the homologue of the usual spin-orbit coupling L.S, that opens the vanishing band gap for free s=12 fermions; and show that is precisely given by the central extension of the N=2 supercurrent algebra in 4D spacetime. We also give comments on the rigid limit of Andrianopoli et al obtained in [28] and propose an interpretation of energy bands in terms of a chiral gapless isospin 12-particle (iso-particle). Other features, such as discrete T- symmetry in FI coupling space, effect of quantum fluctuations and the link with Nielson-Ninomiya theorem, are also studied.