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Paper detail

Towards Magnonic Logic and Neuromorphic Computing: Controlling Spin-Waves by Spin-Polarized Current

Spin-waves (magnons) are among the prime candidates for building fast yet energy-efficient platforms for information transport and computing. We here demonstrate theoretically and in state-of-the-art micromagnetic simulation the effects that strategically-injected spin-polarized current can have on controlling magnonic transport. We reveal analytically that the Zhang-Li spin-transfer-torque induced by applied current is analogous to the Dzyaloshinskii-Moriya interaction for scattering the magnons in the linear regime, to then provide a generalized Snell's law that describes the spin-wave propagation across regions with different current densities. We validate the latter in numerical simulations of realistic systems, and exemplify how these findings may help advance the design of spin-wave logic and neuromorphic computing devices.

preprint2023arXivOpen access
Raí M. MenezesJeroen MulkersClécio C. de Souza SilvaBartel Van WaeyenbergeMilorad V. Milošević
cond-mat.mtrl-scicond-mat.dis-nn
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Raí M. MenezesJeroen MulkersClécio C. de Souza SilvaBartel Van WaeyenbergeMilorad V. Milošević

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