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Infrared Topological Plasmons in Graphene

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arxiv 1702.02553 v1 pith:RU54EJAF submitted 2017-02-08 cond-mat.mes-hall

Infrared Topological Plasmons in Graphene

classification cond-mat.mes-hall
keywords edgeplasmonictopologicaltopologicallybandgapsfrequenciesgrapheneinfrared
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We propose a two-dimensional plasmonic platform - periodically patterned monolayer graphene - which hosts topological one-way edge states operable up to infrared frequencies. We classify the band topology of this plasmonic system under time-reversal-symmetry breaking induced by a static magnetic field. At finite doping, the system supports topologically nontrivial bandgaps with mid-gap frequencies up to tens of terahertz. By the bulk-edge correspondence, these bandgaps host topologically protected one-way edge plasmons, which are immune to backscattering from structural defects and subject only to intrinsic material and radiation loss. Our findings reveal a promising approach to engineer topologically robust chiral plasmonic devices and demonstrate a realistic example of high-frequency topological edge state.

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