Floquet engineering is the concept of tailoring a system by a periodic drive, and it is
increasingly employed in many areas of physics. Ultracold atoms in optical lattices offer a …

The use of periodic driving for synthesizing many-body quantum states depends crucially on
the existence of a prethermal regime, which exhibits drive-tunable properties while …

The dynamic engineering of band structures for ultracold atoms in optical lattices represents
an innovative approach to understanding and exploring the fundamental principles of …

Ultracold atoms in a moving optical lattice with high controllability are a feasible platform to
research the transport phenomenon. Here, we study the transport process of ultracold atoms …

We study the dynamics of bosonic atoms on a two-dimensional square lattice, where atomic
interactions are long ranged with either a box or soft-core shape. The latter can be realized …

We present an extension of the chaos-assisted tunneling mechanism to spatially periodic
lattice systems. We demonstrate that driving such lattice systems in an intermediate regime …

Time crystalline structures are characterized by regularity that single-particle or many-body
systems manifest in the time domain, closely resembling the spatial regularity of ordinary …

Dynamics of a particle in a resonantly driven quantum well can be interpreted as that of a
particle in a crystal-like structure, with the time playing the role of the coordinate. By …

We analyze the stationary current of bosonic carriers in the Bose-Hubbard chain of length L
where the first and the last sites of the chain are attached to reservoirs of Bose particles …

The accelerated optical lattice has emerged as a valuable technique for the investigation of
quantum transport physics and has found widespread application in quantum sensing …