Stacking orders in 2D van der Waals (vdW) materials dictate the relative sliding (lateral
displacement) and twisting (rotation) between atomically thin layers. By altering the stacking …

Spintronics is a promising technology to develop high-speed, high-density, low-power, and
nonvolatile memory and logic devices, and thus has attracted tremendous attention …

Motivated by the recent discovery of fractional quantum anomalous Hall states in moiré
systems, we consider the possibility of realizing non-Abelian phases in topological …

We present a comprehensive theory of the magnetic phases in twisted bilayer chromium
trihalides through a combination of first-principles calculations and atomistic simulations. We …

Twist engineering—the alignment of two-dimensional (2D) crystalline layers with a specific
orientation—has led to tremendous success in controlling the charge degree of freedom …

Moiré magnetism is emerging as a platform to design and control exotic magnetic phases in
twisted magnetic two-dimensional crystals. Non-collinear spin texture emerging from twisted …

In addition to moiré superlattices, twisting can also generate moiré magnetic exchange
interactions (MMEIs) in van der Waals magnets. However, owing to the extreme complexity …

Layered van der Waals materials have risen as a powerful platform to engineer artificial
competing states of matter. Here we show the emergence of multiferroic order in twisted …

Abstract Two-dimensional (2D) magnetism in van der Waals (vdW) atomic crystals and
moiré superlattices has emerged as a topic of tremendous interest in the fields of condensed …

Motivated by the recent developments in moiré superlattices of van der Waals magnets and
the desire to control the magnetic interactions of α-RuCl3, here we present a comprehensive …