Electrically tunable spin polarization in silicene: A multi-terminal spin density matrix approach

Recent realized silicene field-effect transistor yields promising electronic applications. Using a multi terminal spin density matrix approach, this paper presents an analysis of the spin polarizations in a silicene structure of the spin field-effect transistor by considering the intertwined intrinsic and Rashba spin -orbit couplings, gate voltage, Zeeman splitting, as well as disorder. Coexistence of the stagger potential and intrinsic spin -orbit coupling results in spin precession, making any in -plane polarization directions reachable by the gate voltage; specifically, the intrinsic coupling allows one to electrically adjust the in -plane components of the polarizations, while the Rashba coupling to adjust the out -of -plan polarizations. Larger electrically tunable ranges of in -plan polarizations are found in oppositely gated silicene than in the uniformly gated silicene. Polarizations in different phases behave distinguishably in weak disorder regime, while independent of the phases, stronger disorder leads to a saturation value. (C) 2015 Elsevier B.V. All rights reserved.