Berlin 2001 – wissenschaftliches Programm

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A: Atomphysik

A 1: Posters Monday (Cluster, Atoms in Fields)

A 1.16: Poster

Montag, 2. April 2001, 12:30–15:00, AT3

The frequencies of collective electron oscillations in nanotubes — •Yuri Kornyushin¹ and Miron Ya Amusia^1,2 — ¹The Racah Institute of Physics, The Hebrew University of Jerusalem, Jerusalem 91904, Israel — ²A. F. Ioffe Physical Technical Institute, St. Petersburg 194021, Russia

A model for nanotubes, recently discovered complex many-atomic structures with multitude of collectivized electrons, and a simple approach to the problem of collective electrons oscillations as a whole in a nanotube, are suggested. The frequencies of the oscillations of the electronic cloud along the axis of a nanotube ω _a and perpendicular to it ω _t are calculated, as well as the frequency of the radial so called breathing mode ω _b. It is assumed that the total charge of the ions in the nanotube is distributed homogeneously on the surface of a cylinder of the radius R_n and the collective electrons are located within a layer with inner and outer radiuses R_n and R_e. The length of the nanotube is l. Then it is obtained for the collective frequencies ω _a = 0.481(R_e/l)^1/2ω ₀ and ω _t=(2δ _e)^−1/2ω ₀ = 1.30 ω ₀, where ω ₀ is the plasma frequency of the collective electrons and δ _e is the thickness of the electron layer. Our results for ω ₀ is 27.1 eV, and for ω _t is 376 eV. These collective oscillations can be observed in photon absorption and charged particles inelastic scattering.