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Paper detail

Einstein-de Haas Nanorotor

We propose a nanoscale rotor embedded between two ferromagnetic electrodes that is driven by spin injection. The spin-rotation coupling allows this nanorotor to continuously receive angular momentum from an injected spin under steady current flow between ferromagnetic electrodes in an antiparallel magnetization configuration. We develop a quantum theory of this angular momentum transfer and show that a relaxation process from a precession state into a sleeping top state is crucial for the efficient driving of the nanorotor by solving the master equation. Our work clarifies a general strategy for efficient driving of a nanorotor.

preprint2022arXivOpen access
W. IzumidaR. OkuyamaK. SatoT. KatoM. Matsuo
cond-mat.mes-hall
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W. IzumidaR. OkuyamaK. SatoT. KatoM. Matsuo

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