Abstract
Propagation of frequency-modulated signals in an anisotropic medium (Earth’s ionosphere) is numerically simulated with allowance for the effect of the electron collision frequency on deflecting absorption. Projections of ray paths onto different coordinate planes are considered. The influence of the divergence of the ray paths and absorption of radio waves on the attenuation of the radio signal for ordinary and extraordinary waves is studied. The calculations were performed for the daytime and nighttime models of the electron density and collision frequency of the high-latitude ionosphere.
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REFERENCES
D. V. Ivanov, Methods and Mathematical Models of the Research of Propagation in the Ionosphere of Complex Decameter Signals and Correction of Their Dispersion Distortions (Mariiskii Gos. Tekh. Univ., Ioshkar-Ola, 2006).
V. A. Ivanov, D. V. Ivanov, A. R. Lashchevskii, and M. I. Ryabova, Vestn. Povolzh. Gos. Tekhnol. Univ., Ser. Radiotekh. Infokommut. Sist., No. 1(20), 43 (2014).
V. E. Zakharov and D. S. Kotova, in Radio Wave Propagation (Proc. 24th All-Russian Sci. Conf., Irkutsk, June 29–July 5, 2014) (ISZF SO RAN, Irkutsk, 2014), Vol. 4, p. 97 [in Russian].
A. S. Kryukovskii, D. S. Lukin, and K. S. Kir’yanova, J. Commun. Technol. Electron. 57, 1039 (2012).
A. S. Kryukovskii, D. S. Lukin, and D. V. Rastyagaev, Elektromagn. Volny Elektron. Sist. 12 (8), 15 (2007).
A. S. Kryukovskii and I. V. Zaichikov, Elektromagn. Volny Elektron. Sist. 13 (8), 36 (2008).
K. S. Kir’yanova and A. S. Kryukovskii, T-Comm: Telekomm. & Transport, No. 11, 25 (2012).
A. S. Kryukovskii, D. V. Rastyagaev, and Yu. I. Skvortsova, Vestn. Ross. Novogo Univ., Ser. Upravl., Vychisl. Tekh. & Inf., No. 4, 47 (2013).
A. S. Kryukovskii, D. S. Lukin, D. V. Rastyagaev, and Yu. I. Skvortsova, J. Commun. Technol. Electron. 60, 1049 (2015).
A. S. Kryukovskii, D. S. Lukin, D. V. Rastyagaev, and Yu. I. Skvortsova, T-Comm: Telekomm. & Transport, 9 (9), 40 (2015).
A. S. Kryukovskii and Yu. I. Skvortsova, Vestn. Ross. Novogo Univ., Ser. Slozhnye Syst.: Modely, Analiz i Upravl., No. 1-2, 34 (2016).
Yu. I. Bova, Vestn. Rossiiskogo Novogo Universiteta, Ser. Slozhnye Syst.: Modely, Analiz & Upravl., No. 3, 10 (2016).
A. S. Kryukovskii and Yu. I. Skvortsova, Izv. Vyssh. Uchebn. Zaved., Fiz. 59 (12-3), 131 (2016).
K. Davies, Ionospheric Radio Waves, (Blaisdell, London, 1969).
D. S. Lukin and E. A. Palkin, Numerical Canonical Method in Problems of Diffraction and Propagation of Electromagnetic Waves in Heterogeneous Environments (MFTI, Moscow, 1982) [in Russian].
GOST 25645.146-89 Earth’s Ionosphere. Model of Global Distribution of Electron Density, Temperature, and Effective Collision Frequency (Izd-vo Standartov, Moscow, 1990), Part 1 [in Russian].
A. S. Kryukovskii and D. S. Lukin, Radiotekh. Elektron. (Moscow) 26, 1121 (1981).
A. S. Kryukovskii, D. S. Lukin, and E. A. Palkin, Izv. Vyssh. Uchebn. Zaved., Radiofiz. 29, 79 (1986).
A. S. Kryukovskii and D. V. Rastyagaev, in Propagation and Diffraction of Waves in Heterogeneous Media (MFTI, Moscow, 1989), p. 56 [in Russian].
A. S. Kryukovskii and D. V. Rastyagaev, in Diffraction and Propagation of Electromagnetic Waves (MFTI, Moscow, 1993), p. 20 [in Russian].
A. N. Kazantsev, D. S. Lukin, and Yu. G. Spiridonov, Kosm. Issl. 5, 593 (1967).
D. S. Lukin and Yu. G. Spiridonov, Radiotekh. Elektron. (Moscow) 14, 1673 (1969).
A. S. Kryukovskii, Uniform Asymptotic Theory of Edge and Angular Wave Catastrophes (RosNOU, Moscow, 2013) [in Russian].
A. S. Kryukovskii and Yu. I. Skvortsova, Elektromagn. Volny Elektron. Sist. 18 (8), 18 (2013).
T. V. Dorokhina, A. S. Kryukovskii, and D. S. Lukin, Elektromagn. Volny Elektron. Sist. 12 (8), 71 (2007).
ACKNOWLEDGMENTS
This work was supported by the Russian Foundation for Basic Research, project nos. 18-02-00544-a and 17-02-01183-a.
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Bova, Y.I., Kryukovsky, A.S. & Lukin, D.S. Propagation of Frequency-Modulated Electromagnetic Radiation in the Earth’s Ionosphere with Allowance for Absorption and the External Magnetic Field. J. Commun. Technol. Electron. 64, 1–12 (2019). https://doi.org/10.1134/S1064226919010030
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DOI: https://doi.org/10.1134/S1064226919010030