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arxiv: 2310.06499 · v1 · pith:PQKW4FK3 · submitted 2023-10-10 · cond-mat.mtrl-sci

Non-relativistic torque and Edelstein effect in noncollinear magnets

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classification cond-mat.mtrl-sci
keywords torqueeffectspin-orbitedelsteinmagneticmaterialscontrolcoupling
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The Edelstein effect is the origin of the spin-orbit torque: a current-induced torque that is used for the electrical control of ferromagnetic and antiferromagnetic materials. This effect originates from the relativistic spin-orbit coupling, which necessitates utilizing materials with heavy elements. Here we show that in magnetic materials with non-collinear magnetic order, the Edelstein effect and consequently also a current-induced torque can exist even in the absence of the spin-orbit coupling. Using group symmetry analysis, model calculations, and realistic simulations on selected compounds, we identify large classes of non-collinear magnet candidates and demonstrate that the current-driven torque is of similar magnitude as the celebrated spin-orbit torque in conventional transition metal structures. We also show that this torque can exist in an insulating material, which could allow for highly efficient electrical control of magnetic order.

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