Multiple plasmon resonances in naturally-occurring multiwall nanotubes:
  infrared spectra of chrysotile asbestos

A. Marco Saitta; Bertrand Devouard; C. Viti; Christian Brouder; Céline Lemaire; E. Balan; E. Balan; Etienne Balan; F. J. Wicks; Francesco Mauri; François Guyot; L. Henrard; M. K. Titulaer; S. Yariv; V. C. Farmer; W. A. de Heer

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Multiple plasmon resonances in naturally-occurring multiwall nanotubes: infrared spectra of chrysotile asbestos

Authors: A. Marco Saitta
Bertrand Devouard
C. Viti
Christian Brouder
Céline Lemaire
E. Balan
E. Balan
Etienne Balan
F. J. Wicks
Francesco Mauri
François Guyot
L. Henrard
M. K. Titulaer
S. Yariv
V. C. Farmer
W. A. de Heer
Publication date: 1 January 2002
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Chrysotile asbestos is formed by densely packed bundles of multiwall hollow nanotubes. Each wall in the nanotubes is a cylindrically wrapped layer of

Mg_3 Si_2 O_5 (OH)_4

. We show by experiment and theory that the infrared spectrum of chrysotile presents multiple plasmon resonances in the Si-O stretching bands. These collective charge excitations are universal features of the nanotubes that are obtained by cylindrically wrapping an anisotropic material. The multiple plasmons can be observed if the width of the resonances is sufficiently small as in chrysotile.Comment: 4 pages, 5 figures. Revtex4 compuscript. Misprint in Eq.(6) correcte