Topology with broken parity-time symmetry

Abstract

Topological edge states arise in parity-time (PT)-symmetric non-unitary quantum dynamics but have so far only been discussed in the PT-symmetry-unbroken regime. Here we report the experimental detection of robust topological edge states in one-dimensional photonic quantum walks with spontaneously broken PT symmetry, thus establishing the existence of topological phenomena therein. We theoretically prove and experimentally confirm that the global Berry phase in non-unitary quantum-walk dynamics unambiguously defines topological invariants of the system in both the PT-symmetry-unbroken and broken regimes. As topological edge states exist in both PT unbroken and broken regimes, we reveal that topological phenomena are not driven by PT symmetry.