Frustration in magnetic materials arising from competing exchange interactions can prevent
the system from adopting long-range magnetic order and can instead lead to a diverse …

In metals, electrons in a magnetic field undergo cyclotron motion, leading to oscillations in
physical properties called quantum oscillations. This phenomenon has never been seen in a …

In topological magnetic materials, the topology of the electronic wave function is strongly
coupled to the structure of the magnetic order. In general, ferromagnetic Weyl semimetals …

Exploring material magnetization led to countless fundamental discoveries and applications,
culminating in the field of spintronics. Recently, research effort in this field focused on …

Topological phases of spin liquids with constrained disorder can host a kinetics of
fractionalized excitations. However, spin-liquid phases with distinct kinetic regimes have …

In magnetic crystals, despite the explicit breaking of time-reversal symmetry, two equilibrium
states related by time reversal are always energetically degenerate. In ferromagnets, this …

A core concept in condensed matter physics is geometric frustration that leads to emergent
spin phases in magnetic materials. These distinct phases, which depart from the …

Spins in strongly frustrated systems are of intense interest due to the emergence of intriguing
quantum states including superconductivity and quantum spin liquid. Herein, we report the …

There has been considerable interest in the search and design of two-dimensional (2D) van
der Waals (vdW) compounds with exotic magnetic behavior. Here we establish the growth of …

Two-dimensional valleys and magnetism are rising areas with intriguing properties and
practical uses in advanced information technology. By coupling valleys to collinear …