Solution of Direct and Inverse Problems in Investigations of the Internal Gravity Waves Dynamics in Ionosphere Using the Doppler Frequency Shift Method
Vasily Yu Belashov*
Institute of Physics, Kazan Federal University, Kazan, Russia
*Corresponding Author: Vasily Yu Belashov, Institute of Physics, Kazan Federal University, Kazan, Russia.
Received:
October 19, 2021; Published: December 14, 2021
Abstract
The solution of direct and inverse problems arising in investigations of the internal gravity waves (IGWs) dynamic via recording of the Doppler frequency shift, is presented. The direct problem is to determine the response of the Doppler shift to IGWs in the region of the radio wave reflection point; the inverse problem is the determination of IGW parameters from experimental data on the Doppler frequency shift. Solutions were obtained in an approximation of the isothermal ionosphere for the heights of the F-region. They are presented in a form convenient for their practical use and can have a wide range of applications, including the detection of soliton-like wave structures in the F-region of the ionosphere.
Keywords: Internal Gravity Waves; Doppler Frequency Shift; F-region
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