Exploration of the impact of synthetic material landscapes featuring tunable geometrical
properties on physical processes is a research direction that is currently of great interest …

Moiré lattices consist of two superimposed identical periodic structures with a relative
rotation angle. Moiré lattices have several applications in everyday life, including artistic …

We predict that photonic moiré patterns created by two mutually twisted periodic sublattices
in quadratic nonlinear media allow the formation of parametric solitons under conditions that …

Superposing two or more periodic structures to form moiré patterns is emerging as a
promising platform to confine and manipulate light. However, moiré-facilitated interactions …

The moiré lattice has recently attracted broad interest in both solid-state physics and
photonics where exotic phenomena in manipulating the quantum states are explored. In this …

We observe linear and nonlinear light localization at the edges and in the corners of
truncated moiré arrays created by the superposition of periodic mutually twisted at …

Moiré superlattices, the artificial quantum materials, have provided a wide range of
possibilities for the exploration of completely new physics and device architectures. In this …

Moiré superlattices formed by stacking two-dimensional crystals have reinvigorated the
pursuit for emergent functionalities of engineered superlattices. Unique optical …

Moiré superlattices—twisted van der Waals (vdW) structures with small angles—are
attracting increasing attention in condensed matter physics, due to important phenomena …

Twisting or sliding two-dimensional crystals with respect to each other gives rise to moiré
patterns determined by the difference in their periodicities. Such lattice mismatches can exist …