Litcius/Paper detail

Square-root-like higher-order topological states in three-dimensional sonic crystals

Zhi-Guo Geng, Yu-Gui Peng, Huanzhao Lv, Zhan Xiong, Zhaojiang Chen, Xue-Feng Zhu

2021Journal of Physics Condensed Matter15 citationsDOI

Abstract

Abstract The square-root descendants of higher-order topological insulators were proposed recently, whose topological property is inherited from the squared Hamiltonian. Here we present a three-dimensional (3D) square-root-like sonic crystal by stacking the 2D square-root lattice in the normal ( z ) direction. With the nontrivial intralayer couplings, the opened degeneracy at the K – H direction induces the emergence of multiple acoustic localized modes, i.e., the extended 2D surface states and 1D hinge states, which originate from the square-root nature of the system. The square-root-like higher order topological states can be tunable and designed by optionally removing the cavities at the boundaries. We further propose a third-order topological corner state in the 3D sonic crystal by introducing the staggered interlayer couplings on each square-root layer, which leads to a nontrivial bulk polarization in the z direction. Our work sheds light on the high-dimensional square-root topological materials, and have the potentials in designing advanced functional devices with sound trapping and acoustic sensing.

Topics & Concepts

Topological insulatorPhysicsTopology (electrical circuits)StackingPolarization (electrochemistry)Lattice (music)Surface statesCondensed matter physicsHingeCrystal (programming language)Topological orderTrappingDegeneracy (biology)Acoustic metamaterialsCrystal structureTopological degeneracySurface (topology)Ground stateTopological defectPiezoelectricityWork (physics)Symmetry protected topological orderOrder (exchange)Topological Materials and Phenomena2D Materials and ApplicationsGraphene research and applications