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In spin electronics, the spin degree of freedom is used to transmit and store information. To this end the ability to create pure spin currents—that is, without net charge transfer—is essential. When the magnetization vector in a ferromagnet–normal metal junction is excited, the spin pumping effect leads to the injection of pure spin currents into the normal metal. The polarization of this spin current is time-dependent and contains a very small d.c. component. Here we show that the large a.c. component of the spin currents can be detected efficiently using the inverse spin Hall effect. The observed a.c.-inverse spin Hall voltages are one order of magnitude larger than the conventional d.c.-inverse spin Hall voltages measured on the same device. Our results demonstrate that ferromagnet–normal metal junctions are efficient sources of pure spin currents in the gigahertz frequency range.

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Effective exchange interaction for terahertz spin waves in iron layers

Brandt

Ritzmann

Liebing

et al. 2021

Phys. Rev. B

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Ultrafast spin transport and control of spin current pulse shape in metallic multilayers

et al. 2022

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Control of ultrashort spin current pulses in metallic multilayers

Melnikov¹,

Brandt²,

Liebing³

et al. 2021

Preprint

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We study the emission of femtosecond spin current pulses at Fe/Au interfaces. Using optical second harmonic generation we demonstrate the control of pulse shape and duration by varying the emitter thickness and show that it is determined by the parameters of hot electrons emission and the diffusive transport. Using a simple model of electron emission we develop a description of superdiffusive spin transport in Au allowing to extract electron velocity and scattering rates from the experimental data. The importance of carrier multiplication in Fe is demonstrated.

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Mirko Ribow

Spin Hall voltages from a.c. and d.c. spin currents

Effective exchange interaction for terahertz spin waves in iron layers

Ultrafast spin transport and control of spin current pulse shape in metallic multilayers

Control of ultrashort spin current pulses in metallic multilayers

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