Temporal evolution of inverse spin Hall effect voltage in a magnetic insulator-nonmagnetic metal structure

Temporal evolution of inverse spin Hall effect voltage in a magnetic insulator-nonmagnetic metal structure

It is demonstrated that the temporal evolution of a spin-wave induced inverse spin Hall effect voltage in a magnetic insulator-nonmagnetic metal structure is distinctly different from that of the directly excited (microwave pulse driven) spin-wave mode from which it originates. The differences in te...

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Detalles Bibliográficos
Autores principales: Jungfleisch, M, Chumak, A, Vasyuchka, V, Serga, A, Obry, B, Schultheiss, H, Beck, P, Karenowska, A, Saitoh, E, Hillebrands, B
Formato: Journal article
Lenguaje:English
Publicado: 2011
Descripción
Sumario:It is demonstrated that the temporal evolution of a spin-wave induced inverse spin Hall effect voltage in a magnetic insulator-nonmagnetic metal structure is distinctly different from that of the directly excited (microwave pulse driven) spin-wave mode from which it originates. The differences in temporal behavior provide compelling evidence that incoherent secondary spin-wave modes, having a range of different characteristic lifetimes, make an important contribution to spin pumping at the insulator-metal interface. © 2011 American Institute of Physics.

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