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TU Dresden » Faculty of Mechanical Science and Engineering » Institute for Materials Science » Chair of Materials Science and Nanotechnology

» presentations   » 2005.03.04-09

Spin transport in disordered single-wall carbon nanotubes (TT 8.1 Fr 14:00 Poster TU C)

N. Ranjan, N. Nemec and G. Cuniberti

Deutsche Physikalische Gesellschaft, AKF Frühjahrstagung 2005
German Physical Society, Spring Meeting 2005

2005.03.04-09; Berlin, Germany

The effects of vibrations on the linear conductance of single-wall carbon nanotubes can be described by the Anderson model of disorder [1]. Indeed, there are also indications that multi-wall carbon nanotubes effectively behave as a disordered single-wall system as far as transport properties are concerned [2]. With this motivation, we investigate spin transport in ferromagnetically contacted disordered single-wall carbon nanotubes (within the tight binding model) in the coherent regime. Different models for the ferromagnetic leads are employed ranging from wide-band leads to fcc(111) surfaces (as in the case of cobalt). Results as a function of disorder strength and Fermi energy in the leads are given for realistics tube lengths of several hundred nanometers.

[1] M. Gheorghe et. al, cond-mat/0411192, (2004).
[2] R. Egger and A. O. Gogolin, Phys. Rev. Lett. 87, 066401 (2001).

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