Mixed-order topology of Benalcazar-Bernevig-Hughes models

Abstract

Benalcazar-Bernevig-Hughes (BBH) models, defined on D-dimensional simple cubic lattice, are paradigmatic toy models for studying D-th order topology and corner-localized, mid-gap states. Under periodic boundary conditions, the Wilson loops of non-Abelian Berry connection of BBH models along all high-symmetry axes have been argued to exhibit gapped spectra, which predict gapped surface-states under open boundary conditions. In this work, we identify 1D, 2D, and 3D topological invariants for characterizing higher order topological insulators. Further, we demonstrate the existence of cubic-symmetry-protected, gapless spectra of Wilson loops and surface-states along the body diagonal directions of the Brillouin zone of BBH models. We show the gapless surface-states are described by 2D-1-component, massless Dirac fermions. Thus, BBH models can exhibit the signatures of first and D-th order topological insulators, depending on the details of externally imposed boundary conditions.