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Mathematical Modeling of Dielectric Permeability and Volt-Ampere Characteristics of a Semiconductor Nanocomposite Conglomerate

Author

Listed:
  • Sergey Korchagin

    (Department of Data Analysis and Machine Learning, Financial University under the Government of Russian Federation, 4th Veshnyakovsky pr. 4, 111395 Moscow, Russia)

  • Ekaterina Romanova

    (Department of Data Analysis and Machine Learning, Financial University under the Government of Russian Federation, 4th Veshnyakovsky pr. 4, 111395 Moscow, Russia)

  • Petr Nikitin

    (Department of Data Analysis and Machine Learning, Financial University under the Government of Russian Federation, 4th Veshnyakovsky pr. 4, 111395 Moscow, Russia)

  • Denis Serdechnyy

    (Department of Innovation Management, State University of Management, Ryazansky pr. 99, 109542 Moscow, Russia)

  • Konstantin V. Bublikov

    (Institute of Electrical Engineering, Slovak Academy of Sciences, Dubravska cesta 3484/9, 84104 Bratislava, Slovakia)

  • Irina Bystrenina

    (Department of Applied Informatics, Russian State Agrarian University, Moscow Timiryazev Agricultural Academy, 49 Timeryazevskaya, 127550 Moscow, Russia)

Abstract

Mathematical computer models of the permittivity of silicon-based nanostructures upon interaction with electromagnetic radiation in a wide frequency range have been developed. To implement computer models for studying the electrophysical properties of the structures under study, algorithms and a set of programs have been developed. The results of the study of materials will not only provide fundamental information about the physical effects occurring in composite nanostructures but will also be useful for solving problems related to calculations for given electrophysical problems. For a nanocomposite based on ceramics and semiconductor oxides of zinc grains, resonant bursts of permittivity are observed within a wavelength of 300–400 nm; it has been found that this is due to the presence of electronic polarization of the nanocomposite core. The paper presents the results of modeling the current-voltage characteristics of a nanocomposite based on ceramics and semiconductor grains of zinc oxide. The obtained results show that the geometrical parameters, such as the number of layers and sample width, affect the CVC of the nanocomposite, and the operating point of the CVC shifts. This may be of interest in the development of materials with desired electrical characteristics for the creation of varistors.

Suggested Citation

  • Sergey Korchagin & Ekaterina Romanova & Petr Nikitin & Denis Serdechnyy & Konstantin V. Bublikov & Irina Bystrenina, 2022. "Mathematical Modeling of Dielectric Permeability and Volt-Ampere Characteristics of a Semiconductor Nanocomposite Conglomerate," Mathematics, MDPI, vol. 10(4), pages 1-7, February.
    • Handle: RePEc:gam:jmathe:v:10:y:2022:i:4:p:596-:d:749568
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    References listed on IDEAS

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    1. Vera Ivanyuk, 2021. "Formulating the Concept of an Investment Strategy Adaptable to Changes in the Market Situation," Economies, MDPI, vol. 9(3), pages 1-19, June.
    2. Vladimir Sudakov, 2021. "Improving Air Transportation by Using the Fuzzy Origin–Destination Matrix," Mathematics, MDPI, vol. 9(11), pages 1-13, May.
    3. Bagrat Yerznkyan & Svetlana Bychkova & Timur Gataullin & Sergey Gataullin, 2019. "The Sufficiency Principle as the Ideas Quintessence of the Club of Rome," Montenegrin Journal of Economics, Economic Laboratory for Transition Research (ELIT), vol. 15(1), pages 21-29.
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