Extremely short optical pulses in a medium of oriented carbon nanotubes with nonlinearities of orders 3 and 5

Автор: Dvuzhilov I.S., Dvuzhilova Yu.V., Belonenko M.B.

Журнал: НБИ технологии @nbi-technologies

Рубрика: Нанотехнологии и наноматериалы

Статья в выпуске: 2 т.17, 2023 года.

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In the work, a theoretical study was carried out as well as numerical simulation of the interaction of three-dimensional extremely short pulses with an inhomogeneous array of oriented semiconductor carbon nanotubes, with polarization nonlinearities of 3 and 5 orders. The results of the temporal evolution of such pulses and the dependence of the pulse strength on the parameters of the inhomogeneity of an array of oriented nanotubes are shown. Extremely short pulses (ESP), in this case, mean optical pulses of high intensity, containing one to five periods of the electromagnetic field, with a duration of up to 100 ps. The pulse frequency lies in the near-infrared range. A necessary condition for the stable propagation of extremely short pulses is the presence of nonlinear effects that would make it possible to compensate for their dispersion and diffraction spreading. Therefore, an array of oriented carbon nanotubes (CNTs), which have nonlinear properties, was chosen as the pulse propagation medium. The use of nonlinear optical media can be used to create coherent radiation sources, light sources with variable frequency, etc.

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Extremely short optical pulses, carbon nanotubes, nonlinear optics, maxwell’s equations

Короткий адрес: https://sciup.org/149143818

IDR: 149143818   |   DOI: 10.15688/NBIT.jvolsu.2023.2.2

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