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FMR and voltage induced transport in normal metal-ferromagnet-superconductor trilayers

We study the subgap spin and charge transport in normal metal-ferromagnet-superconductor trilayers induced by bias voltage and/or magnetization precession. Transport properties are discussed in terms of time-dependent scattering theory. We assume the superconducting gap is small on the energy scales set by the Fermi energy and the ferromagnetic exchange splitting, and compute the non-equilibrium charge and spin current response to first order in precession frequency, in the presence of a finite applied voltage. We find that the voltage-induced instantaneous charge current and longitudinal spin current are unaffected by the precessing magnetization, while the pumped transverse spin current is determined by spin-dependent conductances and details of the electron-hole scattering matrix. A simplified expression for the transverse spin current is derived for structures where the ferromagnet is longer than the transverse spin coherence length.

preprint2011arXivOpen access
Hans Joakim SkadsemArne BrataasJan MartinekYaroslav Tserkovnyak
cond-mat.mes-hallcond-mat.supr-con
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Hans Joakim SkadsemArne BrataasJan MartinekYaroslav Tserkovnyak

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