Aharonov-Casher oscillations of spin current through a multichannel mesoscopic ring

Abstract

The Aharonov-Casher (AC) oscillations of spin current through a two-dimensional ballistic ring in the presence of Rashba spin-orbit interaction and external magnetic field has been calculated using the semiclassical path-integral method. For classically chaotic trajectories the Fokker-Planck equation determining dynamics of the particle spin polarization has been derived. On the basis of this equation an analytic expression for the spin conductance has been obtained taking into account a finite width of the ring arms carrying large number of conducting channels. It was shown that the finite width results in a broadening and damping of spin-current AC oscillations. We found that an external magnetic field leads to appearance of new nondiagonal components of the spin conductance, allowing thus by applying a rather weak magnetic field to change a direction of the transmitted spin-current polarization.