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 …

Topological Hall effect (THE) and its inverse effect (skyrmion Hall effect) generally occurs in
magnetic materials with topological properties, as a consequence of nonuniform and …

The Dzyaloshinskii-Moriya interaction (DMI), one of the origins of chiral magnetism, is
currently attracting considerable attention in the research community focusing on applied …

The orbital angular momentum (OAM) generation as well as its associated orbital torque is
currently a matter of great interest in spin–orbitronics and is receiving increasing attention. In …

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 …

Abstract Two-dimensional (2D) heterostructures based on graphene (Gr) and 2D magnetic
materials have attracted much attention due to the unique properties, which have the …

Spin‐orbit coupling refers to the relativistic interaction between the spin and orbital motions
of electrons. This interaction leads to numerous intriguing phenomena, including spin‐orbit …

Magnetic skyrmions in heavy metal (HM)/CoFeB/MgO structures are of particular interest for
skyrmion-based magnetic tunnel junction (MTJ) devices because of their reliable …

Abstract In the'Beyond Moore's Law'era, information devices are expected to exhibit
advantages, including small sizes, high processing speeds, and low power and dissipation …

Nanometer-thick epitaxial Co films intercalated between graphene (Gr) and a heavy metal
(HM) substrate are promising systems for the development of spin–orbitronic devices due to …