Tanatar, BilalMoldoveanu V.2016-02-082016-02-082010http://hdl.handle.net/11693/28584Date of Conference: 3-8 Jan. 2010We study the effect of Rashba spin-orbit coupling on the spin interference in a non-interacting one-dimensional ring connected to two lead theoretically within the non-equilibrium Greens' function formalism. We compute the charge and spin currents and analyze their Aharonov-Bohm oscillations. The geometry of the system is conveniently described by the angle δ between the two leads. We show that for δ=180° (i.e for symmetrically coupled leads) a good tutering of up or down spin orientation is obtained around half-integer multiples of Φ/Φ0. These particular flux values correspond to degeneracy points for clockwise and counter-clockwise propagating state related to the same spin orientation in the local spin frame of the ring. In contrast, for the asymmetric coupling, i.e., δ=135° the filter efficiency is maximum around integer multiples of Φ/Φ0. The numerical results suggest that the spin filtering is obtained when the clockwise or counter-clockwise states interfere destructively. The spin filtering regime is stable against variations of the bias applied on the system. ©2010 IEEE.EnglishAsymmetric couplingCounter-clockwiseDegeneracy pointFilter efficiencyLocal spinNon equilibriumNumerical resultsQuantum ringRashba couplingRashba spin-orbit couplingSpin currentsSpin filteringSpin interferenceSpin orientationsNanoelectronicsNumerical analysisSpin dynamicsConference Paper10.1109/INEC.2010.5425177