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Unveiling Giant Hidden Rashba Effects in Two-Dimensional Si$_2$Bi$_2$

Published 14 Jul 2020 in cond-mat.mtrl-sci and cond-mat.mes-hall | (2007.06742v2)

Abstract: Recently, it has been known that the hidden Rashba (R-2) effect in two-dimensional materials gives rise to a novel physical phenomenon called spin-layer locking (SLL). However, not only has its underlying fundamental mechanism been unclear, but also there are only a few materials exhibiting weak SLL. Here, through the first-principles density functional theory and model Hamiltonian calculation, we reveal that the R-2 SLL can be determined by the competition between the sublayer-sublayer interaction and the spin-orbit coupling (SOC), which is related to the Rashba strength. In addition, the orbital angular momentum distribution is another crucial point to realize the strong R-2 SLL. We propose that a novel 2D material Si$_2$Bi$_2$ possesses an ideal condition for the strong R-2 SLL, whose Rashba strength is evaluated to be 2.16 eV{\AA}, which is the greatest value ever observed in 2D R-2 materials to the best of our knowledge. Furthermore, we reveal that the interlayer interaction in a bilayer structure ensures R-2 states spatially farther apart, implying a potential application in spintronics.

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