Title of article
Spin-flip effect on electrical transport in magnetic quantum wire systems
Author/Authors
Shokri، نويسنده , , Ali A. and Mardaani، نويسنده , , M.، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
6
From page
53
To page
58
Abstract
We investigate the spin-flip effect on electronic transport in a nanostructure composed of two nonmagnetic (NM) leads separated by a periodic spacer. The spacer is composed of one-dimensional heterostructure formed by a sequence of magnetic (A) and nonmagnetic (B) sites periodically juxtaposed (as in a typical periodic quantum dot (QD)). The calculations are based on the tight-binding model and transfer matrix method, which compute the current–voltage characteristic within the Landauer–Büttiker formalism. Our main goal is to assess the contribution of the spin-flip scattering to the transport properties of such systems. The spin-dependent transport behavior can be controlled via a gate magnetic field and an applied voltage in the ballistic regime. Our results show that the conductance strongly depends on the configurations of the magnetic QD. The application of the predicted results may be useful in designing spin-valve devices, such as spin-polarized molecular transistors.
Keywords
73.63.Nm , A. Magnetic quantum dot (MQD) , D. Spin-flip effect , E. Spin-polarized system , A. Periodic QD , 72.25.-6 , 72.10.-d , D. Electrical transport
Journal title
Solid State Communications
Serial Year
2006
Journal title
Solid State Communications
Record number
1763401
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