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Topological classification of higher-order topological phases with nested band inversion surfaces

Zhoutao Lei, Yuangang Deng, Linhu Li

2022Physical review. B./Physical review. B24 citationsDOIOpen Access PDF

Abstract

Higher-order topological phases (HOTPs) hold gapped bulk bands and topological boundary states localized in boundaries with codimension higher than one. In this paper, we provide a unified construction and topological characterization of HOTPs for the full Altland-Zirnbauer tenfold symmetry classes, based on a method known as nested band inversion surfaces (BISs). Specifically, HOTPs built on this method are decomposed into a series of subsystems, and higher-order topological boundary states emerges from the interplay of their first-order topology. Our analysis begins with a general discussion of HOTPs in continuous Hamiltonians for each symmetry class, then moves on to several lattice examples illustrating the topological characterization based on the nested-BIS method. Despite the example minimal models possessing several spatial symmetries, our method does not rely on any spatial symmetry and can be easily extended into arbitrary orders of topology in dimensions. Furthermore, we extend our discussion to systems with asymmetric boundary states induced by two different mechanisms, namely, crossed BISs that break a ${\mathcal{C}}_{4}$ rotation symmetry and non-Clifford operators that break certain chiral-mirror symmetries of the minimal models.

Topics & Concepts

Homogeneous spaceTopology (electrical circuits)Point reflectionLattice (music)Boundary (topology)Symmetry (geometry)PhysicsMathematicsGeometryCombinatoricsMathematical analysisAcousticsTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsQuantum Mechanics and Non-Hermitian Physics
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