In Floquet topological systems the two-terminal conductance quantizes to |W_ε| e²/h and the Hall conductance to W_ε e²/h after summing all Floquet sidebands, where W_ε is the winding invariant of the quasienergy gap.
Sambe, Steady states and quasienergies of a quantum- mechanical system in an oscillating field, Phys
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Spatially varying light generates effective pseudo-magnetic fields in 3D Weyl semimetals via a high-frequency Floquet expansion that maps light profiles to an axial gauge potential A5(r).
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Quantized Transport in Floquet Topological Insulators
In Floquet topological systems the two-terminal conductance quantizes to |W_ε| e²/h and the Hall conductance to W_ε e²/h after summing all Floquet sidebands, where W_ε is the winding invariant of the quasienergy gap.
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Light-induced pseudo-magnetic fields in three-dimensional topological semimetals
Spatially varying light generates effective pseudo-magnetic fields in 3D Weyl semimetals via a high-frequency Floquet expansion that maps light profiles to an axial gauge potential A5(r).