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Effective Floquet Hamiltonian in the low-frequency regime

We develop a theory to derive effective Floquet Hamiltonians in the weak drive and low-frequency regime. We construct the theory in analogy with band theory for electrons in a spatially-periodic and weak potential, such as occurs in some crystalline materials. As a prototypical example, we apply this theory to graphene driven by circularly polarized light of low intensity. We find an analytic expression for the effective Floquet Hamiltonian in the low-frequency regime which accurately predicts the quasienergy spectrum and the Floquet states. Furthermore, we identify self-consistency as the crucial feature effective Hamiltonians in this regime need to satisfy to achieve a high accuracy. The method is useful in providing a realistic description of off-resonant drives for multi-band solid state systems where light-induced topological band structure changes are sought.

preprint2019arXivOpen access
Michael VoglMartin Rodriguez-VegaGregory A. Fiete
cond-mat.stat-mechcond-mat.mes-hall
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Michael VoglMartin Rodriguez-VegaGregory A. Fiete

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