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First Principle Noncollinear Transport Calculation and Interfacial Spin-flipping of Cu/Co Multilayers

arXiv:0803.4249 · doi:10.1142/S0217984908017138

Abstract

In this paper the first principle noncollinear transport calculation for Cu/Co(111) including interfacial spin-flipping was performed. We modeled spin-flipping at the interface by assuming a noncollinear magnetic structure with random magnetization orientation which satisfied Gaussian distribution along average magnetization direction. The relationship between spin-dependent conductance including interfacial spin-flipping and random magnetization orientation distribution width was obtained. For certain distribution width, our defined spin-flipping ratio coincides with the range of experimental spin-flipping probability $P=1-e^{-δ}$, where $δ=0.25\pm0.1$. The magnetoresistance in Co/Cu/Co spin valve system including interfacial spin-flipping has also been calculated.

5 pages, 4 figures, accepted for publication in Modern Physics Letters B