Spin-polarized transport induced by photoirradiation in zigzag silicene nanosystem

Publication date: Available online 3 October 2018Source: Physics Letters AAuthor(s): Yun-Lei Sun, Xing-Bo Wang, En-Jia YeAbstractWe study the spin-polarized transport induced by photoirradiation in zigzag silicene nanosystem, based on tight-binding approach, Green's function method and Landauer–Büttiker formula. By applying strong circular polarized light, silicene nanosystem can be transformed into a quantum Hall insulator, where the spin-down subband is gapped while the spin-up subband persists gapless edge state. Therefore, the dc conductance is dominated by the spin-up electrons, and the spin polarization can reach almost 100% around the Fermi energy. The spatial-resolved local density of states confirm that the spin-up electrons transport at two edges of the nanosystem in opposite current directions. Furthermore, because of the topological origin of the edge state, the spin-polarized transport is very robust against the size change of the nanosystem.
Source: Physics Letters A - Category: Physics Source Type: research