Two Dimensional Spin-Polarized Electron Gas at the Oxide Interfaces

Abstract

The formation of a novel spin-polarized 2D electron gas at the LaMnO3 monolayer embedded in SrMnO3 is predicted from the first-principles density-functional calculations. The La (d) electrons become confined in the direction normal to the interface in the potential well of the La layer, serving as a positively-charged layer of electron donors. These electrons mediate a ferromagnetic alignment of the Mn t2g spins near the interface via the Anderson-Hasegawa double exchange and become, in turn, spin-polarized due to the internal magnetic fields of the Mn moments.