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Tunneling magnetoresistance devices based on topological insulators: Ferromagnet/insulator/topological-insulator junctions employing Bi$_{2}$Se$_{3}$

Published 11 Jul 2014 in cond-mat.mes-hall | (1407.3195v2)

Abstract: We theoretically investigate tunneling magnetoresistance (TMR) devices, which are probing the spin-momentum coupled nature of surface states of the three-dimensional topological insulator Bi${2}$Se${3}$. Theoretical calculations are performed based on a realistic tight-binding model for Bi${2}$Se${3}$. We study both three dimensional devices, which exploit the surface states of Bi${2}$Se${3}$, as well as two-dimensional devices, which exploit the edge states of thin Bi${2}$Se${3}$ strips. We demonstrate that the material properties of Bi${2}$Se${3}$ allow a TMR ratio at room temperature of the order of 1000%. Analytical formulas are derived that allow a quick estimate of the achievable TMR ratio in these devices. The devices can be used to measure the spin polarization of the topological surface states as an alternative to spin-ARPES. Unlike TMR devices based on magnetic tunnel junctions the present devices avoid the use of a second ferromagnetic electrode whose magnetization needs to be pinned.

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