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Rotation of the Plane of Polarization of a Three-Dimensional Extremely Short Pulse in an Anisotropic Photonic Crystal Made of Carbon Nanotubes

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Bulletin of the Russian Academy of Sciences: Physics Aims and scope

Abstract

Maxwell’s equations are used to obtain effective relations for components of the vector potential of a three-dimensional extremely short laser pulse propagating in the medium of an optically anisotropic photonic crystal based on semiconductor carbon nanotubes. The evolution of two components of pulse strength in such a medium is modeled numerically at times exceeding several dispersion lengths. The shape and delay of pulses are shown as functions of the angle of anisotropy. The dependence of the angle of rotation of a pulse’s plane of polarization on the distance traveled by it is shown.

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Funding

Yu.V. Dvuzhilova and I.S. Dvuzhilov thank the RF Ministry of Science and Higher Education and the RF Presidential Grant Council, project no. MK-2089.2021.1.2.

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Authors and Affiliations

  1. Volgograd State University, 400062, Volgograd, Russia

    Yu. V. Dvuzhilova, I. S. Dvuzhilov, T. B. Shilov, I. A. Chelnintsev & M. B. Belonenko

Authors
  1. Yu. V. Dvuzhilova
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  2. I. S. Dvuzhilov
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  3. T. B. Shilov
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  4. I. A. Chelnintsev
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  5. M. B. Belonenko
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Corresponding author

Correspondence to I. S. Dvuzhilov.

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The authors declare that they have no conflicts of interest.

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Translated by N. Petrov

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Dvuzhilova, Y.V., Dvuzhilov, I.S., Shilov, T.B. et al. Rotation of the Plane of Polarization of a Three-Dimensional Extremely Short Pulse in an Anisotropic Photonic Crystal Made of Carbon Nanotubes. Bull. Russ. Acad. Sci. Phys. 86, 1454–1457 (2022). https://doi.org/10.3103/S1062873822120073

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  • DOI: https://doi.org/10.3103/S1062873822120073

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