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W3153147946 startingPage "20288" @default.
W3153147946 abstract "The ability to control and tune magnetic dissipation is a key concept of emergent spintronic technologies. Magnon scattering processes constitute a major dissipation channel in nanomagnets, redefine their response to spin torque, and hold the promise for manipulating magnetic states on the quantum level. Controlling these processes in nanomagnets, while being imperative for spintronic applications, has remained difficult to achieve. Here, we propose an approach for controlling magnon scattering by a switch that generates nonuniform magnetic field at nanoscale. We provide an experimental demonstration in magnetic tunnel junction nanodevices, consisting of a free layer and a synthetic antiferromagnet. By triggering the spin-flop transition in the synthetic antiferromagnet and utilizing its stray field, magnon interaction in the free layer is toggled. The results open up avenues for tuning nonlinearities in magnetic neuromorphic applications and for engineering coherent magnon coupling in hybrid quantum information technologies." @default.
W3153147946 created "2021-04-26" @default.
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W3153147946 date "2021-04-22" @default.
W3153147946 modified "2023-10-15" @default.
W3153147946 title "Controlling Magnon Interaction by a Nanoscale Switch" @default.
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W3153147946 doi "https://doi.org/10.1021/acsami.1c01562" @default.
W3153147946 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33885300" @default.
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