Understanding the magnetic interactions is of fundamental importance in condensed-matter
physics as well as in the application of spintronic devices. In the past 13 years, the …

Abstract Two-dimensional (2D) magnetism with a high Curie temperature (T c) has been the
pursuit of generations for its potential application in spintronic devices. Meanwhile, some …

Ab initio studies of magnetic superstructures are indispensable to research on emergent
quantum materials, but are currently bottlenecked by the formidable computational cost …

Motivated by the recent wealth of exotic magnetic phases emerging in two-dimensional
frustrated lattices, we investigate the origin of possible magnetism in the monolayer family of …

The flexomagnetic effect involves the coupling of inhomogeneous mechanical and magnetic
excitations to generate exotic spin orders. The intrinsic edge stress associated with lifting of …

Since the early 1960's, the discovery of Dzyaloshinskii–Moriya interaction (DMI) helped to
explain the physical mechanisms behind certain magnetic phenomena, such as net moment …

Multilayer van der Waals (vdW) materials exhibit nontrivial out-of-plane responses and
deformability due to their inherent atomic scale thickness coupled with weak interlayer vdW …

Realizing sizable Dzyaloshinskii-Moriya interaction (DMI) in intrinsic two-dimensional (2D)
magnets without any manipulation will greatly enrich potential application of spintronics …

We introduce superlattices made of ferroelectric halide perovskites as a class of functional
materials possessing large Rashba effect and phase transition from normal insulator (NI) to …

Neural network force fields have significantly advanced ab initio atomistic simulations across
diverse fields. However, their application in the realm of magnetic materials is still in its early …