Since the pioneering works by Landau, Zener, Stückelberg, and Majorana (LZSM), it has
been known that driving a quantum two-level system results in tunneling between its states …

We review recent work on low-frequency Floquet engineering and its application to quantum
materials driven by light, focusing on van der Waals systems hosting Moiré superlattices …

We present a brief overview of some of the analytic perturbative techniques for the
computation of the Floquet Hamiltonian for a periodically driven, or Floquet, quantum many …

We study the effects of periodic driving on a variant of the Bernevig-Hughes-Zhang (BHZ)
model defined on a square lattice. In the absence of driving, the model has both topological …

We study the localization-delocalization transition of Floquet eigenstates in a driven
fermionic chain with an incommensurate Aubry-André potential and a hop** amplitude …

Floquet dynamical quantum phase transitions (FDQPTs) are signified by recurrent
nonanalytic behaviors of observables in time. In this work, we introduce a quench-free and …

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 …

A bstract We compute Out-of-Time-Order correlators (OTOCs) for conformal field theories
(CFTs) subjected to either continuous or discrete periodic drive protocols. This is achieved …

We develop a low-frequency perturbation theory in the extended Floquet Hilbert space of a
periodically driven quantum systems, which puts the high-and low-frequency …

We derive effective Floquet Hamiltonians for twisted bilayer graphene driven by circularly
polarized light in two different regimes beyond the weak-drive, high-frequency regime. First …