Berry's Phase and Absence of Back Scattering in Carbon Nanotubes

15 August 1998

journal article
research article
Published by Physical Society of Japan in Journal of the Physics Society Japan

Vol. 67 (8), 2857-2862
https://doi.org/10.1143/jpsj.67.2857

Abstract

The absence of back scattering in carbon nanotubes is shown to be ascribed to Berry's phase which corresponds to a sign change of the wave function under a spin rotation of a neutrino-like particle in a two-dimensional graphite. Effects of trigonal warping of the bands appearing in a higher order k · p approximation are shown to give rise to a small probability of back scattering.

Keywords

This publication has 41 references indexed in Scilit:

Impurity Scattering in Carbon Nanotubes – Absence of Back Scattering –
Journal of the Physics Society Japan, 1998
Symmetry properties of chiral carbon nanotubes
Physical Review B, 1993
Tubular graphic carbon structures
Molecular Physics, 1992
Electronic structure of graphene tubules based on $C_{60}$
Physical Review B, 1992
Electronic structure of chiral graphene tubules
Applied Physics Letters, 1992
Electronic properties of bucky-tube model
Chemical Physics Letters, 1992
Carbon fibers based on $C_{60}$ and their symmetry
Physical Review B, 1992
New one-dimensional conductors: Graphitic microtubules
Physical Review Letters, 1992
Are fullerene tubules metallic?
Physical Review Letters, 1992
Helical microtubules of graphitic carbon
Nature, 1991

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