Tunable band gap, magnetoresistance and pseudo-magnetoresistance in silicene-based nanodevices

Spin-dependent transport in two terminal zigzag silicene nanoribbon is investigated numerically in the presence of spin-orbit interactions, external spin splittings or exchange fields, and perpendicular electric field. We show by applying an exchange field, a tunable band gap emerges which depends o...

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Bibliographic Details
Published in:Superlattices and microstructures Vol. 100; pp. 214 - 227
Main Authors: Derakhshan, V., Ketabi, S.A., Moghaddam, A.G.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-12-2016
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Summary:Spin-dependent transport in two terminal zigzag silicene nanoribbon is investigated numerically in the presence of spin-orbit interactions, external spin splittings or exchange fields, and perpendicular electric field. We show by applying an exchange field, a tunable band gap emerges which depends on the exchange field vector angle with the plane of nanoribbon. Such behavior is interpreted using the low-energy Hamiltonian of the silicene which indicates qualitative agreement with results obtained from lattice model. Moreover, it is found that by decreasing the width of nanoribbon larger band gaps are achievable which can be promising for nanoelectronic applications. On the other hand, by imposing exchange fields inside the electrodes, the magnetoresistance of the junction is investigated. As a main result we observe that when the Rashba interaction becomes stronger the magnetoresistance decreases but it is not fully suppressed. Finally, in the presence of perpendicular electric fields applied to the electrodes, depending on their relative configuration, the so-called pseudomagnetoresistance is calculated. Our results indicates that the conductance of the silicene nanoribbon significantly differs between the parallel and anti-parallel configurations of electric fields in the electrodes. •Transport properties of silicene in the presence of spin-orbit interactions, exchange fields, and electric field investigated.•We show by applying an exchange field, a tunable band gap emerges.•By imposing exchange fields inside the electrodes, the magnetoresistance of the junction is investigated.•Depending on their relative configuration applied electric field, the so-called pseudomagnetoresistance is calculated.
ISSN:0749-6036
1096-3677
DOI:10.1016/j.spmi.2016.09.036