Reduction of spin transfer by synthetic antiferromagnets

((1) Cornell University; (2) NVE Corporation); A. Jander (2); D. C. Ralph (1); E. M. Ryan (1); F. J. Albert (1); I. N. Krivorotov (1); J. M. Daughton (2); N. C. Emley (1); R. A. Buhrman (1)

arxiv: cond-mat/0401483 · v1 · submitted 2004-01-24 · ❄️ cond-mat.stat-mech · cond-mat.mes-hall

Reduction of spin transfer by synthetic antiferromagnets

N. C. Emley (1) , F. J. Albert (1) , E. M. Ryan (1) , I. N. Krivorotov (1) , D. C. Ralph (1) , R. A. Buhrman (1) , J. M. Daughton (2) , A. Jander (2)

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((1) Cornell University (2) NVE Corporation)

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classification ❄️ cond-mat.stat-mech cond-mat.mes-hall

keywords layersbottomfreelayerspincurrentfixedreduces

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Synthetic antiferromagnetic layers (SAF) are incorporated into spin transfer nanopillars giving a layer composition [Co(bottom)/Ru/Co(fixed)]/Cu/Co(free), where square brackets indicate the SAF. The Co(bottom) and Co(fixed) layers are aligned antiparallel (AP) by strong indirect exchange coupling through the Ru spacer. All three magnetic layers are patterned, so this AP alignment reduces undesirable dipole fields on the Co(free) layer. Adding the Co(bottom)/Ru layers reduces the spin polarization of the electron current passing through the nanopillar, leading to a decreased spin-torque per unit current incident on the Co(free) layer. This may be advantageous for device applications requiring a reduction of the effects of a spin-torque, such as nanoscale CPP-GMR read heads.

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Reduction of spin transfer by synthetic antiferromagnets

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