Abstract
We have considered the problem of evolution of the two-dimensional few cycle optical pulses (FCOP) inside a photonic crystal made of carbon nanotubes. It has been shown that pulse propagation is stable inside the considered environment and it is possible to control and to change the velocity of the pulse propagation by photonic crystal parameters changing.
Highlights
Nowadays among the popular phenomena of nonlinear and coherent optics the study interest of the dynamic of optical pulses which have a small number of electromagnetic field period oscillations is really high
In this paper we have studied π-electrons of CNTs using the tight-bond approximation
As a result of a numerical solution, the coefficients value cm decrease, we can restrict ourselves to the first few terms of expansion
Summary
Nowadays among the popular phenomena of nonlinear and coherent optics the study interest of the dynamic of optical pulses which have a small number of electromagnetic field period oscillations (few cycle optical pulses) is really high. In this paper we have studied π-electrons of CNTs using the tight-bond approximation.
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