Symmetry and transport property of spin current induced spin-Hall effect

Abstract

We study the spin current induced spin-Hall effect that a longitudinal spin dependent chemical potential qVs=x,y,z induces a transverse spin conductances Gss'. A four terminal system with Rashba and Dresselhaus spin-orbit interaction (SOI) in the scattering region is considered. By using Landauer-B uttiker formula with the aid of the Green function, various spin current induced spin-Hall conductances Gss' are calculated. With the charge chemical potential qVc or spin chemical potential qVs=x,y,z, there are 16 elements for the transverse conductances Gμ p=Jp,μ/V where μ,=x,y,z,c. Due to the symmetry of our system these elements are not independent. For the system with C2 symmetry half of elements are zero, when the center region only exists the Rashba SOI or Dresselhaus SOI. The numerical results show that of all the conductance elements, the spin current induced spin-Hall conductances Gss' are usually much greater (about one or two orders of magnitude) than the spin Hall conductances Gsc and the reciprocal spin Hall conductances Gcs. So the spin current induced spin-Hall effect is dominating in the present device.

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