ACOUSTIC PROBING OF THE ANISOTROPIC STRUCTURE OF THE ATMOSPHERE

M. N. Zakirov; Закиров М. Н.; S. N. Kulichkov; Куличков С. Н.; A. I. Chulichkov; Чуличков А. И.; I. P. Chunchuzov; Чунчузов И. П.; O. E. Popov; Попов О. Е.; A. A. Mishenin; Мишенин А. А.; G. A. Bush; Буш Г. А.; N. D. Tsybulskaya; Цыбульская Н. Д.; E. V. Golikova; Голикова Е. В.

doi:10.31857/S2686739723600145

ACOUSTIC PROBING OF THE ANISOTROPIC STRUCTURE OF THE ATMOSPHERE

Authors: Zakirov M.N.¹^,2, Kulichkov S.N.¹^,2, Chulichkov A.I.¹^,2, Chunchuzov I.P.¹, Popov O.E.¹, Mishenin A.A.¹, Bush G.A.¹, Tsybulskaya N.D.¹, Golikova E.V.¹
Affiliations:
1. Obukhov Institute of Atmospheric Physics, Russian Academy of Sciences
2. Lomonosov Moscow State University, Faculty of Physics
Issue: Vol 511, No 1 (2023)
Pages: 98-104
Section: ФИЗИКА АТМОСФЕРЫ И ГИДРОСФЕРЫ
URL: https://journals.rcsi.science/2686-7397/article/view/135817
DOI: https://doi.org/10.31857/S2686739723600145
EDN: https://elibrary.ru/RXLYEK
ID: 135817

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Abstract
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Abstract

A new decomposition method (decomposition into N and U-waves) of infrasonic signals corresponding to partial reflection of N-wave sounding pulses from anisotropic atmospheric layers and recorded in areas of geometric shadow at large distances from explosions and volcanic eruptions is presented. The decomposition method makes it possible to determine the vertical gradients of the effective sound speed (sound speed plus wind speed in the direction of propagation) that are not available for determination by other methods.

Keywords

infrasonic waves, anisotropic structure of the atmosphere, sounding, decomposition method

References

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