Spin–orbit coupling induces a unique form of Zeeman interaction in momentum space in
materials that lack inversion symmetry: the electron's spin is locked on an effective magnetic …

Heusler alloys are theoretically predicted to become half-metals at room temperature (RT).
The advantages of using these alloys are good lattice matching with major substrates, high …

The recent discoveries of two-dimensional (2D) magnets,,,,–and their stacking into van der
Waals structures,,,–have expanded the horizon of 2D phenomena. One exciting application …

Altermagnets are an emerging elementary class of collinear magnets. Unlike ferromagnets,
their distinct crystal symmetries inhibit magnetization while, unlike antiferromagnets, they …

The discovery of an ever-increasing family of atomic layered magnetic materials, together
with the already established vast catalogue of strong spin–orbit coupling and topological …

Spin-orbit coupling in inversion-asymmetric magnetic crystals and structures has emerged
as a powerful tool to generate complex magnetic textures, interconvert charge and spin …

Owing to the rapid developments to improve the accuracy and efficiency of both
experimental and computational investigative methodologies, the massive amounts of data …

Spintronics relies on the transport of spins, the intrinsic angular momentum of electrons, as
an alternative to the transport of electron charge as in conventional electronics. The long …

Abstract 2D van der Waals (vdW) magnets, which present intrinsic ferromagnetic/
antiferromagnetic ground states at finite temperatures down to atomic‐layer thicknesses …

Electric currents carrying a net spin polarization are widely used in spintronics, whereas
globally spin-neutral currents are expected to play no role in spin-dependent phenomena …