A numerical study on spin-polarized transport properties in a quasi-one-dimensional wire with Rashba quantum dots is presented. The ballistic spin transmission probability and spin density profiles are obtained using the quantum transmitting boundary method. The Fano-Rashba effect on the spin transmission is analyzed as a function of the Rashba spin-orbit coupling strength for single dot and double dot systems. The spin density profiles show the localized states that contribute to the backscattering and spin-flip processes in the Rashba dots. The results enlighten us on the Fano-Rashba effect caused by local Rashba spin-orbit coupling and provide concrete ideas for modeling a system with spin-polarized transport for future applications.
The spin transport properties of electrons through a quasi-one-dimensional quantum wire are investigated. Different numbers of gates which induce the local Rashba-type spin-orbit interaction is considered. The total length of the gate-voltage applied domain is the same in each case, but it is divided into either two or three sections. The ballistic transmission probability as a function of the incident electron energy and the strength of the Rashba spinorbit interaction is calculated by using the quantum transmitting boundary method. In the double gate geometry, the effect of interactions between neighboring gates is studied. The results show a peculiar change in the transmission probability as a function of the incident electron's energy. The spin-up and spin-down transmission probabilities oscillate alternately as a function of the strength of the Rashba spin-orbit interaction. While the period of oscillation becomes shorter as the strength of the Rashba spinorbit interaction increases in a single gate system, the period of oscillation is not affected much by the strength of the Rashba spin-orbit interaction in the double or triple gate system.
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