Phase Structure of 1d Interacting Floquet Systems I: Abelian SPTs

Abstract

Recent work suggests that a sharp definition of `phase of matter' can be given for some quantum systems out of equilibrium---first for many-body localized systems with time independent Hamiltonians and more recently for periodically driven or Floquet localized systems. In this work we propose a classification of the finite abelian symmetry protected phases of interacting Floquet localized systems in one dimension. We find that the different Floquet phases correspond to elements of Cl×AG, where Cl is the undriven interacting classification, and AG is a set of (twisted) 1d representations of G. We will address symmetry broken phases in a subsequent paper.