Resonant Raman scattering for one single wall carbon nanotube
spectroscopy is overviewed. First-order resonance Raman spectra of the
radial breathing mode of one carbon nanotube is of importance for
assigning (n, m) values to the nanotube. This assignment of (n, m)
values is confirmed by the chirality dependence of other phonon modes.
Second-order, one-phonon emission, and the inter-valley scattering
processes of two dimensional graphite and of single wall carbon
nanotubes are relevant to disorder-induced D-band Raman spectra. The
dispersive nature of the D-band Raman spectra is explained by double
resonance processes. Many weak Raman spectra appearing in the
intermediate frequency range, which have been observed for a long time
but never assigned so far, have recently been assigned as double
resonance Raman peaks. The second-order Raman phonon frequencies can be
used as a new fundamental tool for determining the phonon energy
dispersion relations, especially for disordered materials and for zone
boundary phonons.
%0 Journal Article
%1 WOS:000177512300025
%A Saito, R
%A Jorio, A
%A Souza, AG
%A Dresselhaus, G
%A Dresselhaus, MS
%A Gruneis, A
%A Cancado, LG
%A Pimenta, MA
%C DAINI TOYOKAIJI BLDG, 4-24-8 SHINBASHI, MINATO-KU TOKYO, 105-004, JAPAN
%D 2002
%I INST PURE APPLIED PHYSICS
%J JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS SHORT NOTES &
REVIEW PAPERS
%K D-band; Raman double graphite; nanotubes; resonance spectroscopy; theory} {carbon
%N 7B
%P 4878-4882
%R 10.1143/JJAP.41.4878
%T First and second-order resonance Raman process in graphite and single
wall carbon nanotubes
%V 41
%X Resonant Raman scattering for one single wall carbon nanotube
spectroscopy is overviewed. First-order resonance Raman spectra of the
radial breathing mode of one carbon nanotube is of importance for
assigning (n, m) values to the nanotube. This assignment of (n, m)
values is confirmed by the chirality dependence of other phonon modes.
Second-order, one-phonon emission, and the inter-valley scattering
processes of two dimensional graphite and of single wall carbon
nanotubes are relevant to disorder-induced D-band Raman spectra. The
dispersive nature of the D-band Raman spectra is explained by double
resonance processes. Many weak Raman spectra appearing in the
intermediate frequency range, which have been observed for a long time
but never assigned so far, have recently been assigned as double
resonance Raman peaks. The second-order Raman phonon frequencies can be
used as a new fundamental tool for determining the phonon energy
dispersion relations, especially for disordered materials and for zone
boundary phonons.
@article{WOS:000177512300025,
abstract = {Resonant Raman scattering for one single wall carbon nanotube
spectroscopy is overviewed. First-order resonance Raman spectra of the
radial breathing mode of one carbon nanotube is of importance for
assigning (n, m) values to the nanotube. This assignment of (n, m)
values is confirmed by the chirality dependence of other phonon modes.
Second-order, one-phonon emission, and the inter-valley scattering
processes of two dimensional graphite and of single wall carbon
nanotubes are relevant to disorder-induced D-band Raman spectra. The
dispersive nature of the D-band Raman spectra is explained by double
resonance processes. Many weak Raman spectra appearing in the
intermediate frequency range, which have been observed for a long time
but never assigned so far, have recently been assigned as double
resonance Raman peaks. The second-order Raman phonon frequencies can be
used as a new fundamental tool for determining the phonon energy
dispersion relations, especially for disordered materials and for zone
boundary phonons.},
added-at = {2022-05-23T20:00:14.000+0200},
address = {DAINI TOYOKAIJI BLDG, 4-24-8 SHINBASHI, MINATO-KU TOKYO, 105-004, JAPAN},
author = {Saito, R and Jorio, A and Souza, AG and Dresselhaus, G and Dresselhaus, MS and Gruneis, A and Cancado, LG and Pimenta, MA},
biburl = {https://www.bibsonomy.org/bibtex/2796b9a7aac0ffdb8f71e1e745b379f69/ppgfis_ufc_br},
doi = {10.1143/JJAP.41.4878},
interhash = {2fb696875a5de389fc7fed6d181daac9},
intrahash = {796b9a7aac0ffdb8f71e1e745b379f69},
issn = {0021-4922},
journal = {JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS SHORT NOTES &
REVIEW PAPERS},
keywords = {D-band; Raman double graphite; nanotubes; resonance spectroscopy; theory} {carbon},
note = {8th Microoptic Conference (MOC 01), OSAKA, JAPAN, OCT 24-26, 2001},
number = {7B},
organization = {Japan Soc Appl Phys},
pages = {4878-4882},
publisher = {INST PURE APPLIED PHYSICS},
pubstate = {published},
timestamp = {2022-05-23T20:00:14.000+0200},
title = {First and second-order resonance Raman process in graphite and single
wall carbon nanotubes},
tppubtype = {article},
volume = 41,
year = 2002
}