F. S. M. Guimarães, A. T. Costa, R. B. Muniz, D. L. Mills
Published 2011-12-03Version 1
In ultrathin ferromagnets deposited on metallic substrates, excitation of precessional motion of the spins produces a spin current in the substrate that transports angular momentum out of the film. This phenomenon is referred to as spin pumping, and is a source of damping of the spin motion. Spin pumping enters importantly in the description of spin dynamics in other nanoscale and subnanoscale systems as well. In this paper, we present an approach based on the Kubo formalism that allows the explicit calculation of this spin current and its spatial variation. We use the formalism to explore features of the spin current generated by spin motions in a simple model system.
Comments: 10 pages, 7 figures
Journal: Phys. Rev. B 84, 054403 (2011)
Plasmon wakefields and dispersive properties of metallic nanostructures
Temperature dependence of spin currents in one- and three-dimensional insulators
First-principles based analysis of thermal transport in metallic nanostructures: size effect and Wiedemann-Franz law
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