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arxiv: 2111.07296 · v1 · pith:EGMCFKINnew · submitted 2021-11-14 · ⚛️ physics.app-ph

Current controlled non-hysteresis magnetic switching in the ansence of magnetic field

classification ⚛️ physics.app-ph
keywords magneticswitchingcurrentmotionnon-hysteresiswallbreakingcurrent-driven
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By means of local ion implantation, we investigated the influence of lateral interface on current-induced magnetic switching by spin-orbit torque in a perpendicularly magnetized Pt/Co/Ta multilayer. The experimental results show that, in this system, the domain wall motion under electrical current can be affected by two mechanisms: symmetry breaking and current-driven N\'eel wall motion at the lateral interface. The dominant mechanism is symmetry breaking (current-driven N\'eel wall motion) at the large (small) current. Due to the competitive relationship of these two mechanisms, the non-hysteresis effect magnetic switching without an external magnetic field is obtained. Based on the non-hysteresis effect magnetic switching, we can realize AND and OR logic gates without resetting.

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