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Multiterminal Conductance of a Floquet Topological Insulator

We report on simulations of the dc conductance and quantum Hall response of a Floquet topological insulator using Floquet scattering theory. Our results reveal that laser-induced edge states in graphene lead to quantum Hall plateaus once imperfect matching with the non-illuminated leads is lessened. But the magnitude of the Hall plateaus is not directly related to the number and chirality of all the edge states at a given energy as usual. Instead, the plateaus are dominated only by those edge states adding to the dc density of states. Therefore, the dc quantum Hall conductance of a Floquet topological insulator is not directly linked to topological invariants of the full the Floquet bands.

preprint2014arXivOpen access
L. E. F. Foa TorresP. M. Perez-PiskunowC. A. BalseiroG. Usaj
cond-mat.mes-hallquant-ph
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L. E. F. Foa TorresP. M. Perez-PiskunowC. A. BalseiroG. Usaj

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