How do closed quantum many-body systems driven out of equilibrium eventually achieve
equilibration? And how do these systems thermalize, given that they comprise so many …

We give a general overview of the high-frequency regime in periodically driven systems and
identify three distinct classes of driving protocols in which the infinite-frequency Floquet …

Originally, the Hubbard model was derived for describing the behavior of strongly correlated
electrons in solids. However, for over a decade now, variations of it have also routinely been …

Artificial gauge fields are currently realized in a wide range of physical settings. This
includes solid-state devices but also engineered systems, such as photonic crystals …

We theoretically investigate the Floquet generation of a second-order topological
superconducting (SOTSC) phase hosting Majorana corner modes (MCMs), considering a …

Quantum systems can show qualitatively new forms of behavior when they are driven by fast
time-periodic modulations. In the limit of large driving frequency, the long-time dynamics of …

We report the observation of synthesized spin-orbit coupling (SOC) for ultracold spin-1 87Rb
atoms. Different from earlier experiments where a one dimensional (1D) atomic SOC of …

We demonstrate a versatile method for creating state-dependent optical lattices by applying
a magnetic field gradient modulated in time. This allows for tuning the relative amplitude and …

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 …

The interplay between the non-Hermiticity and dimensionality gives rise to exotic
characteristics in higher dimensions, with one representative phenomenon known as the …