Magnetoconductance of carbon nanotubes

15 March 1995

journal article
research article
Published by American Physical Society (APS) in Physical Review B

Vol. 51 (12) , 7592-7597
https://doi.org/10.1103/physrevb.51.7592

Abstract

As a result of the interaction between the spin and the magnetic field (B), special step structures are predicted to exist in the ballistic magnetoconductance of carbon nanotubes. The electronic structure of a carbon nanotube drastically changes from a metal (semiconductor) to a semiconductor (metal) during the variation of the magnetic flux. When the spin-B interaction is neglected, the Fermi level only touches the conductance and valence bands of a metallic nanotube. This paramagnetic interaction could make the subbands cross and intersect with the Fermi level within a certain magnetic-flux range; the ballistic magnetoconductance thus exhibits step structures. Such special structures are expected to be observable at low temperature (B interaction.

Keywords

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