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Second Chern crystals with inherently non-trivial topology

Xiao‐Dong Chen, Fu‐Long Shi, Jianwei Liu, Ke Shen, Xin‐Tao He, C. T. Chan, Wen-Jie Chen, Jian‐Wen Dong

2022National Science Review30 citationsDOIOpen Access PDF

Abstract

Chern insulators have been generalized to many classical wave systems and thereby lead to many potential applications such as robust waveguides, quantum computation and high-performance lasers. However, the band structure of a material can be either topologically trivial or non-trivial, depending on how the crystal structure is designed. Here, we propose a second Chern crystal in a four-dimensional parameter space by introducing two extra synthetic translation dimensions. Since the topology of the bulk bands in the synthetic translation space is intrinsically non-trivial, our proposed four-dimensional crystal is guaranteed to be topologically non-trivial regardless of the crystal's detailed configuration. We derive the topologically protected modes on the lower dimensional boundaries of such a crystal via dimension reduction. Remarkably, we observe the one-dimensional gapless dislocation modes and confirm their robustness in experiments. Our findings provide novel perspectives on topologically non-trivial crystals and may inspire designs of classical wave devices.

Topics & Concepts

ComputationGapless playbackTopology (electrical circuits)PhysicsTranslation (biology)Crystal (programming language)Robustness (evolution)Crystal structureSpace (punctuation)Theoretical physicsCondensed matter physicsMathematicsComputer scienceCrystallographyCombinatoricsAlgorithmProgramming languageBiochemistryGeneMessenger RNAOperating systemChemistryTopological Materials and PhenomenaQuantum Mechanics and Non-Hermitian PhysicsPhotorefractive and Nonlinear Optics
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