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Physical origin of current-induced switching angle shift in magnetic heterostructures

Published 9 Sep 2025 in cond-mat.mes-hall and cond-mat.mtrl-sci | (2509.07844v1)

Abstract: Accurate quantification of the spin-orbit torques (SOTs) is critical for the identification and applications of new spin-orbitronic effects. One of the most popular techniques to qualify the SOTs is the switching angle shift, where the applied direct current was assumed to shift, via domain wall depinning during the anti-domain expansion, the switching angle of a perpendicular magnetization in a linear proportion manner under a large rotating magnetic field. Here, we report that, for the most commonly employed perpendicular magnetization heterostructures in spintronics (e.g., those based on FeCoB, Co, and Co/Ni multilayers), the switching angle shift considerably misestimates the SOT within the domain wall depinning analysis of the slope of the linear-in-current scaling and may also have a non-zero residual value at zero direct current. Our experiments and simulations unveil that the switching angle shift is most likely dominated by the chiral asymmetric nucleation rather than the expansion of the anti-domains. The in-plane field from external magnet and current-induced SOTs lower the perpendicular nucleation field and thus the required switching angle, ultimately leading to underestimation of the SOTs by the domain wall depinning analysis. These results have advanced the understanding of magnetization switching of spintronic devices.

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