Raman intensity of single-wall carbon nanotubes

15 February 1998

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

Vol. 57 (7) , 4145-4153
https://doi.org/10.1103/physrevb.57.4145

Abstract

Using nonresonant bond-polarization theory, the Raman intensity of a single-wall carbon nanotube is calculated as a function of the polarization of light and the chirality of the carbon nanotube. The force-constant tensor for calculating phonon dispersion relations in the nanotubes is scaled from those for two-dimensional graphite. The calculated Raman spectra do not depend much on the chirality, while their frequencies clearly depend on the nanotube diameter. The polarization and sample orientation dependence of the Raman intensity shows that the symmetry of the Raman modes can be obtained by varying the direction of the nanotube axis, keeping the polarization vectors of the light fixed.

Keywords

This publication has 22 references indexed in Scilit:

Phonon modes in carbon nanotubules
Published by Elsevier ,2002
Electron nano-diffraction study of carbon single-walled nanotube ropes
Chemical Physics Letters, 1997
Diameter-Selective Raman Scattering from Vibrational Modes in Carbon Nanotubes
Science, 1997
Crystalline Ropes of Metallic Carbon Nanotubes
Science, 1996
Quenched disorder, memory, and self-organization
Physical Review E, 1996
Phonons in Graphitic Tubules
Europhysics Letters, 1995
Catalytic growth of single-walled nanotubes by laser vaporization
Chemical Physics Letters, 1995
Physics of carbon nanotubes
Carbon, 1995
A bond polarizability model for the C60 Raman spectrum
Solid State Communications, 1993
Electronic structure of graphene tubules based on $C_{60}$
Physical Review B, 1992