Magnetic skyrmions are particle‐like topological magnetic textures that are potential
information carriers in future spintronics. An enormous body of research confirms their …

The main origin of the chiral symmetry breaking and, thus, for the magnetochiral effects in
magnetic materials is associated with an antisymmetric exchange interaction, the intrinsic …

We present a physical picture for the emergence of the Dzyaloshinskii-Moriya (DM)
interaction based on the idea of the Doppler shift by an intrinsic spin current induced by spin …

The possibility of tuning the Dzyaloshinskii-Moriya interaction (DMI) by electric (E)-field
gating in ultrathin magnetic materials has opened up new perspectives in terms of …

Spin waves represent the collective excitations of the magnetization field within a magnetic
material, providing dispersion curves that can be manipulated by material design and …

The discovery of two-dimensional (2D) magnetic materials provides an ideal testbed for
manipulating the magnetic properties at the atomically thin and 2D limit. This review gives …

A magnetic Janus monolayer, a special type of material which has asymmetric
arrangements of its surface at the nanoscale, has been shown to present rather exotic …

Exploring novel two-dimensional multiferroic materials that can realize electric-field control
of two-dimensional magnetism has become an emerging topic in spintronics. Using first …

Electric control of topological magnetic phases has attracted extensive attention due to its
potential applications in energy-efficient spintronic devices. Here, using first-principles …

The interfacial Dzyaloshinskii-Moriya interaction (DMI) in multilayers of heavy metal and
ferromagnetic metals enables the stabilization of novel chiral spin structures such as …