Determination of spin torque efficiencies in heterostructures with perpendicular magnetic anisotropy Article Swipe

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condensed matter physics heterojunction magnetic field ferromagnetism magnetic anisotropy spin hall effect magnetic moment spin (aerodynamics) torque perpendicular anisotropy physics spin polarization electron magnetization quantum mechanics mathematics geometry thermodynamics

Chi‐Feng Pai , Maxwell Mann , Aik Jun Tan , Geoffrey S. D. Beach ·

YOU? · · 2016 · Open Access · · DOI: https://doi.org/10.1103/physrevb.93.144409 · OA: W2254676946

We report that by measuring current-induced hysteresis loop shift versus in-plane bias magnetic field, the spin Hall effect (SHE) contribution of the current-induced effective field per current density, $\chi_{SHE}$, can be estimated for Pt and Ta-based magnetic heterostructures with perpendicular magnetic anisotropy (PMA). We apply this technique to a Pt-based sample with its ferromagnetic (FM) layer being wedged-deposited and discover an extra effective field contribution, $\chi_{Wedged}$, due to the asymmetric nature of the deposited FM layer. We confirm the correlation between $\chi_{Wedged}$ and the asymmetric depinning process in FM layer during magnetization switching by magneto-optical Kerr (MOKE) microscopy. These results indicate the possibility of engineering deterministic spin-orbit torque (SOT) switching by controlling the symmetry of domain expansion through the materials growth process.