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Abstract
Originating from the investigation of condensed matter states, the concept of quantum Hall effect and quantum spin Hall effect (QSHE) has recently been expanded to other field of physics and engineering, e.g., photonics and phononics, giving rise to strikingly unconventional edge modes immune to scattering. Here, we present the plasmonic analog of QSHE in graphene plasmonic crystal (GPC) in mid-infrared frequencies. The band inversion occurs when deforming the honeycomb lattice GPCs, which further leads to the topological band gaps and pseudospin features of the edge states. By overlapping the band gaps with different topologies, we numerically simulated the pseudospin-dependent one-way propagation of edge states. The designed GPC may find potential applications in the fields of topological plasmonics and trigger the exploration of the technique of the pseudospin multiplexing in high-density nanophotonic integrated circuits.
Details
; Ren, Junbo 1 ; Lin, Zhili 1 ; Wang, Zeyu 1 ; Jia-Xian, Wang 1 ; Kan, Qiang 2 ; Jiao-Qing Pan 2 1 Fujian Key Laboratory of Light Propagation and Transformation, College of Information Science and Engineering, Huaqiao University, Xiamen, China
2 College of Materials Science and Opto-Electronic Technology, University of Chinese Academy of Sciences, Beijing, China; Institute of Semiconductors, Chinese Academy of Sciences, Beijing, China