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Direct Observation of Flatband Loop States Arising from Nontrivial Real-Space Topology

Jina Ma, Jun‐Won Rhim, Liqin Tang, Shiqi Xia, Haiping Wang, Xiuyan Zheng, Shiqiang Xia, Daohong Song, Yi Hu, Yigang Li, Bohm‐Jung Yang, Daniel Leykam, Zhigang Chen

2020Physical Review Letters75 citationsDOIOpen Access PDF

Abstract

Topological properties of lattices are typically revealed in momentum space using concepts such as the Chern number. Here, we study unconventional loop states, namely, the noncontractible loop states (NLSs) and robust boundary modes, mediated by nontrivial topology in real space. While such states play a key role in understanding fundamental physics of flatband systems, their experimental observation has been hampered because of the challenge in realizing desired boundary conditions. Using a laser-writing technique, we optically establish photonic kagome lattices with both an open boundary by properly truncating the lattice, and a periodic boundary by shaping the lattice into a Corbino geometry. We thereby demonstrate the robust boundary modes winding around the entire edge of the open lattice and, more directly, the NLSs winding in a closed loop akin to that in a torus. We prove that the NLSs due to real-space topology persist in ideal Corbino-shaped kagome lattices of arbitrary size. Our results could be of great importance for our understanding of the singular flatbands and the intriguing physics phenomenon applicable for strongly interacting systems.

Topics & Concepts

Topology (electrical circuits)PhysicsLattice (music)Boundary (topology)TorusLoop (graph theory)Loop spacePosition and momentum spacePeriodic boundary conditionsSpace (punctuation)Parameter spaceBoundary value problemGeometryQuantum mechanicsComputer sciencePure mathematicsMathematicsMathematical analysisCombinatoricsOperating systemAcousticsTopological Materials and PhenomenaNonlinear Photonic SystemsCold Atom Physics and Bose-Einstein Condensates