Evolution of the Spatial Distribution of Hydrogen Atoms Channeling along Non-Chiral Carbon Nanotubes


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Resumo

The exact potentials of the interaction of channeled hydrogen atoms with non-chiral carbon nanotubes of \(\left( {n,0} \right)\) and \(\left( {n,n} \right)\) types are calculated using the Lennard-Jones potential. After expansion in a two-dimensional Fourier series of one-dimensional reciprocal lattice vectors and azimuthal harmonics, these potentials are used to analyze the motion of atoms in the channel. Numerical solution of the Schrödinger equation with the averaged electrostatic interaction potential for a \(\left( {10,10} \right)\) nanotube ensures discrete transverse energy levels and corresponding wave functions. The evolution of the spatial distribution of channeled hydrogen atoms moving in the longitudinal direction under the influence of the periodic perturbing interaction potential as a function of the longitudinal velocity is studied by means of fundamental solution of the kinetic equation. The ability to induce the focusing effect at the center of a nanotube for moving hydrogen atoms is shown as well.

Sobre autores

N. Maksyuta

Kyiv National University

Email: vivysotskii@gmail.com
Ucrânia, Kyiv, 01601

V. Vysotskii

Kyiv National University

Autor responsável pela correspondência
Email: vivysotskii@gmail.com
Ucrânia, Kyiv, 01601

S. Efimenko

Kyiv National University

Email: vivysotskii@gmail.com
Ucrânia, Kyiv, 01601

A. Sabirov

Chuvash State University

Email: vivysotskii@gmail.com
Rússia, Cheboksary, 428015

G. Filippov

Chuvash State Pedagogical University

Email: vivysotskii@gmail.com
Rússia, Cheboksary, 428000

I. Lysova

Chuvash State Pedagogical University

Email: vivysotskii@gmail.com
Rússia, Cheboksary, 428000

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