2004
DOI: 10.1103/physrevb.69.155423
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Giant magnetoresistance of multiwall carbon nanotubes: Modeling the tube/ferromagnetic-electrode burying contact

Abstract: We report on the giant magnetoresistance (GMR) of multiwall carbon nanotubes with ultra small diameters. In particular, we consider the effect of the inter-wall interactions and the lead/nanotube coupling. Comparative studies have been performed to show that in the case when all walls are well coupled to the electrodes, the so-called inverse GMR can appear. The tendency towards a negative GMR depends on the inter-wall interaction and on the nanotube length. If, however, the inner nanotubes are out of contact w… Show more

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Cited by 32 publications
(31 citation statements)
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“…In my previous papers, very special geometries of the SWCNT (6,6) armchair and the double-walled CNT (2,2)@(6,6) were studied (see [18] - [20] for details). In those cases it was possible to construct the end-contacted devices in such a way that interface carbon atoms were placed exactly above the centers of equilateral triangles formed by the adjacent transition metal atoms.…”
Section: Modelling Of the Devices And The Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…In my previous papers, very special geometries of the SWCNT (6,6) armchair and the double-walled CNT (2,2)@(6,6) were studied (see [18] - [20] for details). In those cases it was possible to construct the end-contacted devices in such a way that interface carbon atoms were placed exactly above the centers of equilateral triangles formed by the adjacent transition metal atoms.…”
Section: Modelling Of the Devices And The Resultsmentioning
confidence: 99%
“…The Green's function technique has been used, along the line of the non-equilibrium transport formalism, and under constraint of global charge neutrality. The so-called extended molecule concept is adapted, by incorporating to the central part of the system not only the entire molecule (CNT) but also two closest magnetic atomic planes from the left-and right-hand side electrodes [20]. The Green's function is defined as G = (1E − H C − Σ L − Σ R ) −1 , whereas the density matrix of electrons and current (per spin) are given by:…”
Section: Theoretical Approachmentioning
confidence: 99%
“…This is very different from magnetotransport through finite CNTs: Scattering at the contacts leads to resonant tunneling, resulting in spectroscopy of the electronic states of the finite tube. 39,40 This spectrum may show strong dependence on magnetic fields, even in regions of flat bands, 16 resulting in quantum-dot-like physics. 41 Relation to 2D periodic structures.…”
mentioning
confidence: 99%
“…[19][20][21][22][23][24][25] Further theoretical studies [26][27][28][29] reveal that the transport properties are directly related to the magnetic-field modulated density of states. The SOI-modified band structure and its implications on the electronic properties of CNT's in a magnetic field have been in the focus of extensive theoretical work.…”
Section: Introductionmentioning
confidence: 99%