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Efficient spin injection into graphene through a tunnel barrier: overcoming the spin conductance mismatch

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arxiv 1411.0779 v1 pith:PYOD3TUG submitted 2014-11-04 cond-mat.mtrl-sci cond-mat.mes-hall

Efficient spin injection into graphene through a tunnel barrier: overcoming the spin conductance mismatch

classification cond-mat.mtrl-sci cond-mat.mes-hall
keywords spingraphenebarrierinjectionconductanceefficiencycalculatedelectrode
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Employing first-principles calculations, we investigate efficiency of spin injection from a ferromagnetic (FM) electrode (Ni) into graphene and possible enhancement by using a barrier between the electrode and graphene. Three types of barriers, h-BN, Cu(111), and graphite, of various thickness (0-3 layers) are considered and the electrically biased conductance of the Ni/Barrier/Graphene junction are calculated. It is found that the minority spin transport channel of graphene can be strongly suppressed by the insulating h-BN barrier, resulting in a high spin injection efficiency. On the other hand, the calculated spin injection efficiencies of Ni/Cu/Graphene and Ni/Graphite/Graphene junctions are low, due to the spin conductance mismatch. Further examination on the electronic structure of the system reveals that the high spin injection efficiency in the presence of a tunnel barrier is due to its asymmetric effects on the two spin states of graphene.

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