Frequency spectrum calculation of an electromagnetic wave reflected from an axisymmetric scatterer flow

Abstract

Analytical expressions are obtained for spectral energy density of an electromagnetic wave scattered backward by an axisymmetric scatterer flow. Dependence of the frequency band of a scattered signal on flow sensing angle is studied. It is assumed that wavelength is less than flow sizes, scatterers are statistically independent and distributed uniformly along flow surface. The calculation results show that the signal frequency spectrum scattered by conical flow is characterized by monotonic energy increase with increase of the Doppler frequency shift.

Original language	English
Pages (from-to)	70-71
Number of pages	2
Journal	Radiotekhnika
Issue number	12
Publication status	Published - Dec 1994

ASJC Scopus subject areas

Electrical and Electronic Engineering

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Spitsyn, V. G. (1994). Frequency spectrum calculation of an electromagnetic wave reflected from an axisymmetric scatterer flow. Radiotekhnika, (12), 70-71.

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abstract = "Analytical expressions are obtained for spectral energy density of an electromagnetic wave scattered backward by an axisymmetric scatterer flow. Dependence of the frequency band of a scattered signal on flow sensing angle is studied. It is assumed that wavelength is less than flow sizes, scatterers are statistically independent and distributed uniformly along flow surface. The calculation results show that the signal frequency spectrum scattered by conical flow is characterized by monotonic energy increase with increase of the Doppler frequency shift.",

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AB - Analytical expressions are obtained for spectral energy density of an electromagnetic wave scattered backward by an axisymmetric scatterer flow. Dependence of the frequency band of a scattered signal on flow sensing angle is studied. It is assumed that wavelength is less than flow sizes, scatterers are statistically independent and distributed uniformly along flow surface. The calculation results show that the signal frequency spectrum scattered by conical flow is characterized by monotonic energy increase with increase of the Doppler frequency shift.

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