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For decades, ferromagnetic materials have driven technologies like magnetic hard drives, magnetic random access memories and ...
A groundbreaking step in AI hardware efficiency comes from Germany, where scientists have engineered a vast spin waveguide network that processes information with far less energy. These spin waves — ...
The rapid rise in AI applications has placed increasingly heavy demands on our energy infrastructure. All the more reason to ...
The electrical current in the ferromagnetic medium is spin-polarized; thus, it exerts the spin-transfer torque on the magnetization inside DWs. The effect is inherent in a soluble (Ishimori-like) ...
Spin defect centers with long quantum coherence times (T2) are key solid-state platforms for a variety of quantum applications. Cluster correlation ...
Spin-transfer from the spin-polarized current to the nanomagnets becomes significant for large currents and small devices. The resistance versus applied current shows spin-transfer effects, including ...
To realize high-speed nonvolatile magnetic memory with low energy consumption, electric switching of perpendicular magnetization by spin–orbit torque in the heavy metal/ferromagnetic (HM/FM) structure ...
The ability to tailor the electronic and magnetic properties of two-dimensional (2D) materials opens new avenues for designing spintronic devices. In this study, first-principles calculations have ...