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Anomalous spin Hall angle of a metallic ferromagnet determined by a multiterminal spin injection/detection device

We report on the determination of the anomalous spin Hall angle in the ferromagnetic metal alloy cobalt-iron (Co$_{25}$Fe$_{75}$, CoFe). This is accomplished by measuring the spin injection/detection efficiency in a multiterminal device with nanowires of platinum (Pt) and CoFe deposited onto the magnetic insulator yttrium iron garnet (Y$_3$Fe$_5$O$_{12}$, YIG). Applying a spin-resistor model to our multiterminal spin transport data, we determine the magnon conductivity in YIG, the spin conductance at the YIG/CoFe interface and finally the anomalous spin Hall angle of CoFe as a function of its spin diffusion length in a single device. Our experiments clearly reveal a negative anomalous spin Hall angle of the ferromagnetic metal CoFe, but a vanishing ordinary spin Hall angle. This is in contrast to the results reported for the ferromagnetic metals Co and permalloy.

preprint2019arXivOpen access
Tobias WimmerBirte CoesterStephan GeprägsRudolf GrossSebastian T. B. GoennenweinHans HueblMatthias Althammer
cond-mat.mes-hallcond-mat.mtrl-sci
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Open access7 authors2 topics
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Tobias WimmerBirte CoesterStephan GeprägsRudolf GrossSebastian T. B. GoennenweinHans HueblMatthias Althammer

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