Supersymmetry breaking and Nambu-Goldstone fermions with cubic dispersion

Abstract

We introduce a lattice fermion model in one spatial dimension with supersymmetry (SUSY) but without particle number conservation. The Hamiltonian is defined as the anticommutator of two nilpotent supercharges Q and Q. Each supercharge is built solely from spinless fermion operators and depends on a parameter g. The system is strongly interacting for small g, and in the extreme limit g=0, the number of zero-energy ground states grows exponentially with the system size. By contrast, in the large-g limit, the system is non-interacting and SUSY is broken spontaneously. We study the model for modest values of g and show that under certain conditions spontaneous SUSY breaking occurs in both finite and infinite chains. We analyze the low-energy excitations both analytically and numerically. Our analysis suggests that the Nambu-Goldstone fermions accompanying the spontaneous SUSY breaking have cubic dispersion at low energies.