Temporal Spectrum of a Scattered Electromagnetic Waves in the Conductive Collision Turbulent Magnetized Plasma

Main Article Content

G. Jandieri
A. Ishimaru
B. Rawat
N. Tugushi

Abstract

Using WKB method the peculiarities of the temporal spectrum of an ordinary and extraordinary electromagnetic wave scattered in a weakly randomly inhomogeneous three-dimensional nonstationary and conductive magnetized plasma are investigated. On the basis of the stochastic differential transport equation for the frequency fluctuation the broadening and the displacement of the temporal spectrum for both waves are obtained for the polar terrestrial ionosphere. These statistical characteristics contains anisotropic parameters: velocity of a plasma stream, conductivities of the ionosphere, elongated electron density irregularities are characterized by the anisotropy factor and inclination angle with respect to the geomagnetic lines of forces. The analysis of the power spectrum of the waves as a function of the propagation distance and the nondimensional frequency parameter containing the carrier frequency and characteristic temporal scale of electron density fluctuations are carried out. Analytical and numerical calculations have shown that the terrestrial conductivity and anisotropy factors exert a substantial influence on evaluation of the temporal spectrum than the inclination angle. It was found that the wave spectrum increases initially as the square root of the propagation distance, but at large distances it approaches a limiting value. Statistical moments of a scattered ordinary and extraordinary waves do not depend on an absorption sign and valid for both absorptive and active media.

Downloads

Download data is not yet available.

Article Details

How to Cite
Jandieri, G. ., Ishimaru, A. ., Rawat, B. ., & Tugushi, N. (2022). Temporal Spectrum of a Scattered Electromagnetic Waves in the Conductive Collision Turbulent Magnetized Plasma. Advanced Electromagnetics, 11(1), 1–8. https://doi.org/10.7716/aem.v11i1.1859
Section
Research Articles

References

A.Ishimaru, Wave Propagation and Scattering in Random Media, Vol. 2, Multiple Scattering, Turbulence, Rough Surfaces and Remote Sensing, IEEE Press, Piscataway, New Jersey, USA, 1997.

S. M. Rytov, Yu. A. Kravtsov, V.I. Tatarskii, Principles of Statistical Radiophysics. vol.4. Waves Propagation Through Random Media. Berlin, New York, Springer. 1989.

View Article

Yu. A. Kravtsov, Yu. I. Orlov, Geometrical optics of Inhomogeneous Media. Moscow, Nauka, 1980 (in Russian).

Yu. A. Kravtsov, Yu. A. Feizulin, A.G. Vinogradov, Radio Wave Propagation Through the Earth's Atmosphere, Radio and Communication, Moscow, 1983 (in Russian).

Yu. A. Kravtsov, L. A. Ostrovsky, N.S. Stepanov, "Geometrical Optics of Inhomogeneous and Nonstationary Dispersive Media," Proceedings IEEE, vol. 62, no 11, pp. 1492-1510, 1974.

View Article

G. Jandieri, A. Ishimaru, B. Rawat, V. Gavrilenko, O. Kharshiladze, "Statistical Moments and Scintillation Level of Scattered Electromagnetic Waves in the Magnetized Plasma", Progress In Electromagnetics Research C, PIER C., vol. 84, pp. 11-22, 2018.

View Article

G. Jandieri, A. Ishimaru, B. Rawat, N. Mchedlishvili, "Spatial Power Spectrum of Scattered Electromagnetic Waves in the Conductive Anisotropic Magnetized Plasma," Int. J. Microwave and Optical Technology, vol. 14, pp. 440-449, 2019. ISSN 1553-0396.

G. Jandieri, N. Zhukova, I. Jandieri, "Statistical Characteristics of Scattered Radiation in Medium with Spatial-Temporal Fluctuations of Electron Density and External Magnetic Field," J. Electromagnetic Analysis and Application, vol. 4, pp. 243-251, 2012.

View Article

G. Jandieri, A. Ishimaru, B. Rawat, "Peculiarities of the Spatial Power Spectrum of Scattered Electromagnetic Waves in the Turbulent Collision Magnetized Plasma," Progress In Electromagnetics Research PIER, vol. 152, pp. 137-149, 2015.

View Article

A. Ishimaru, "Wave beam and remote sensing" in Laser Beam Propagation in the Atmosphere, Ed. By J. W. Strohben, Chapter 5, pp. 169-213, Springer-Verlag, Berlin Heidelberg, New York, 1978.

View Article

N. Kuznetsova, L. Chernov, "Allowance for the Doppler Effect in the Theory of Multiple Wave Scattering in a Randomly Inhomogeneous Medium," Sov. Phys. Acoust. vol. 23, pp. 93-94, 1977.

V. Tatarskii, Wave Propagation in a Turbulent Medium. Dover, New York, 1967.

V. Gavrilenko, S. Petrov, "The features of the spectrum of electromagnetic waves multiply scattered in the turbulent plasma flow," Plasma Physics Report, vol. 12, # 10, pp. 1257-1260, 1986.

C. Liu, A. Wernik, K. Yeh, "Propagation of Pulse Trains through a random Medium," IEEE Trans. Antennas and Propagation, pp.624-627, 1974.

View Article

V. Gavrilenko, N. Stepanov, "Statistical characteristics of waves in the chaotically media with spatial-temporal irregularities," Izv. VUZ. Radiophysics, vol. 20, pp. 3-35, 1987.

G. Jandieri, A. Ishimaru, N. Mchedlishvili, "Compensation Effect in the Conductive Auroral Regions of the Terrestrial Atmosphere," Progress In Electromagnetics Research M, PIER M, vol. 105, pp.119-129, 2021.

View Article

V. Ginzburg, Propagation of Electromagnetic Waves in Plasma, Gordon and Beach, New York, 1961.

G. Jandieri, "Double-Humped Effect" in the Turbulent Collision Magnetized Plasma," PIER M, vol. 48, pp. 95-102, 2016.

View Article

G. Jandieri, J. Diasamidze, I. Takidze, "Second Order Statistical Moments of the Phase Fluctuations of Scattered Radiation in the Collision Magnetized Plasma," WORLDCOMP'16, CSC'16, pp.134-138, 2016.

G. Jandieri, A. Ishimaru, V. Jandieri, A. Khantadze, Z. Diasamidze, "Model Computations of Angular Power Spectra for Anisotropic Absorptive Turbulent Magnetized Plasma," Progress In Electromagnetic Research, PIER 70, 307-328, 2007.

View Article