Open Access
Anatomy of Spin-Transfer Torque
Mark D. Stiles,Andrew Zangwill +1 more
- Vol. 2003
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TLDR
In this paper, the authors demonstrate that spin-transfer torques occur in magnetic heterostructures because the transverse component of a spin current that flows from a nonmagnet into a ferromagnet is absorbed at the interface.Abstract:
Spin-transfer torques occur in magnetic heterostructures because the transverse component of a spin current that flows from a nonmagnet into a ferromagnet is absorbed at the interface. We demonstrate this fact explicitly using free-electron models and first-principles electronic structure calculations for real material interfaces. Three distinct processes contribute to the absorption: (1) spin-dependent reflection and transmission, (2) rotation of reflected and transmitted spins, and (3) spatial precession of spins in the ferromagnet. When summed over all Fermi surface electrons, these processes reduce the transverse component of the transmitted and reflected spin currents to nearly zero for most systems of interest. Therefore, to a good approximation, the torque on the magnetization is proportional to the transverse piece of the incoming spin current.read more
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References
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Book
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TL;DR: In this paper, the authors present a list of superconductivity properties of solids with respect to periodic structure, lattice wave properties, electron states, and electron-electron interaction.
Journal ArticleDOI
Enhanced gilbert damping in thin ferromagnetic films.
TL;DR: The precession of the magnetization of a ferromagnet is shown to transfer spins into adjacent normal metal layers, slowing down the precession corresponding to an enhanced Gilbert damping constant in the Landau-Lifshitz equation.
Journal ArticleDOI
Non-collinear spin transfer in Co/Cu/Co multilayers
Mark D. Stiles,Andrew Zangwill +1 more
TL;DR: In this article, a matrix version of the Boltzmann equation is used to study perpendicular transport in submicron mul-tilayers where the magnetizations of the ferromagnetic layers point in different directions.
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Current-induced magnetization switching in small domains of different anisotropies
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