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W4363673597 abstract "Using two-frequency driving in two dimensions opens up new possibilites for Floquet engineering, which range from controlling specific symmetries to tuning the properties of resonant gaps. In this work, we study two-band lattice models subject to two-tone Floquet driving and analyse the resulting effective Floquet bandstructures both numerically and analytically. On the one hand, we extend the methodology of Sandholzer et al. [10.1103/PhysRevResearch.4.013056] from one to two dimensions and find competing topological phases in a simple Bravais lattice when the two resonant drives at $1omega$ and $2omega$ interfere. On the other hand, we explore driving-induced symmetry breaking in the hexagonal lattice, in which the breaking of either inversion or time-reversal symmetry can be tuned independently via the Floquet modulation. Possible applications of our work include a simpler generation of topological bands for ultracold atoms, and the realisation of non-linear Hall effects as well as Haldane's parity anomaly in inversion-symmetric parent lattices." @default.
W4363673597 created "2023-04-11" @default.
W4363673597 creator A5017511276 @default.
W4363673597 creator A5025639109 @default.
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W4363673597 date "2023-04-10" @default.
W4363673597 modified "2023-10-18" @default.
W4363673597 title "Topological Floquet engineering using two frequencies in two dimensions" @default.
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W4363673597 doi "https://doi.org/10.1103/physreva.107.043309" @default.
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