First-principles study of magnetization relaxation enhancement and spin-transfer in thin magnetic films

(2) Harvard University; (3) Norwegian University of Science; A. Brataas (3); G.E.W. Bauer (4) ((1) University of Twente; M. Zwierzycki (1); P.J. Kelly (1); Technology; the Netherlands); The Netherlands; Trondheim (4) Delft University of Technology

arxiv: cond-mat/0402088 · v2 · submitted 2004-02-03 · ❄️ cond-mat.mes-hall

First-principles study of magnetization relaxation enhancement and spin-transfer in thin magnetic films

M. Zwierzycki (1) , Y. Tserkovnyak (2) , P.J. Kelly (1) , A. Brataas (3) , G.E.W. Bauer (4) ((1) University of Twente , The Netherlands , (2) Harvard University , USA

show 4 more authors

(3) Norwegian University of Science Technology Trondheim (4) Delft University of Technology the Netherlands)

This is my paper

classification ❄️ cond-mat.mes-hall

keywords magnetizationdampingfilmsmagneticsmallspinthinvery

0 comments

read the original abstract

The interface-induced magnetization damping of thin ferromagnetic films in contact with normal-metal layers is calculated from first principles for clean and disordered Fe/Au and Co/Cu interfaces. Interference effects arising from coherent scattering turn out to be very small, consistent with a very small magnetic coherence length. Because the mixing conductances which govern the spin transfer are to a good approximation real valued, the spin pumping can be described by an increased Gilbert damping factor but an unmodified gyromagnetic ratio. The results also confirm that the spin-current induced magnetization torque is an interface effect.

This paper has not been read by Pith yet.

First-principles study of magnetization relaxation enhancement and spin-transfer in thin magnetic films

discussion (0)