Diffraction of millimeter-wavelength electromagnetic waves by nanostructure material specimens based on 3D lattices of carbon nanotubes with magnetic nanoparticles and of magnetic nanowires in a waveguide
- Authors: Makeeva G.S.1, Golovanov O.A.2
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Affiliations:
- Penza State University
- Penza Artillery Engineer Institute
- Issue: Vol 61, No 1 (2016)
- Pages: 19-32
- Section: Radio Phenomena in Solids and Plasma
- URL: https://journals.rcsi.science/1064-2269/article/view/196695
- DOI: https://doi.org/10.1134/S1064226915120189
- ID: 196695
Cite item
Abstract
A mathematical model of the electromagnetic wave diffraction by specimens of anisotropic nanocomposite materials (3D lattices of oriented carbon nanotubes (CNTs) with magnetic nanoparticles and magnetic nanowires) in waveguides is developed. It is made with the help of a computational algorithm based on a multilevel recomposition and the method of autonomous blocks with the Floquet channels. The transmission coefficients of the H10 wave with the frequency of 26 GHz that propagates through plates of magnetic nanocomposites in a waveguide are electrodynamically calculated as dependences of an external constant magnetic field (a magnetic bias field) and the number of magnetic nanoparticles filling the CNT.
About the authors
G. S. Makeeva
Penza State University
Author for correspondence.
Email: radiotech@pnzgu.ru
Russian Federation, Krasnaya ul. 40, Penza, 440026
O. A. Golovanov
Penza Artillery Engineer Institute
Email: radiotech@pnzgu.ru
Russian Federation, Penza oblast, Penza-5, 440005