OPTO-ACOUSTIC RADAR FOR SENSING OF THE ATMOSPHERE

Shamanaeva L. G.; Krasnenko N. P.; Potekaev A. I.

doi:doi:10.56820/conferencearticle_685be468379f08.66310072

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OPTO-ACOUSTIC RADAR FOR SENSING OF THE ATMOSPHERE

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OPTO-ACOUSTIC RADAR FOR SENSING OF THE ATMOSPHERE

Section: B. OPTICAL INVESTIGATION OF ATMOSPHERE

Proceedings: INTERNATIONAL SYMPOSIUM "ATMOSPHERIC AND OCEAN OPTICS. ATMOSPHERIC PHYSICS" Volume 1

VAK Russia 1.3.6

UDC 535.8

CSCSTI 29.31

Russian Classification of Professions by Education 12.00.00

Russian Library and Bibliographic Classification 223

Russian Trade and Bibliographic Classification 6135

BISAK SCI053000 Physics / Optics & Light

Shamanaeva L. G. ¹

Krasnenko N. P. ²

Potekaev A. I. ³

Author and publication information

Authors:

1. Institut optiki atmosfery im. V.E. Zueva SO RAN
Tomskiy gosudarstvennyy universitet

2. Institut monitoringa klimaticheskih i ekologicheskih sistem SO RAN
Tomskiy gosudarstvennyy universitet sistem upravleniya i radioelektroniki

3. Tomskiy gosudarstvennyy universitet
Tomskiy nauchnyy centr SO RAN

Type:

Сonference article

DOI:

https://doi.org/10.56820/conferencearticle_685be468379f08.66310072

Published:

26.06.2025

Subject area:

VAK Russia 1.3.6
UDC 535.8
CSCSTI 29.31
Russian Classification of Professions by Education 12.00.00
Russian Library and Bibliographic Classification 223
Russian Trade and Bibliographic Classification 6135
BISAK SCI053000 Physics / Optics & Light

Language:

Russian

Keywords:

atmosphere, opto-acoustic sensing, aerosol particles

Funding:

This work was supported by the Ministry of Science and Higher Education of the Russian Federation (V.E. Zuev Institute of Atmospheric Optics of the Siberian Branch of the Russian Academy of Sciences and Institute for Monitoring of Climatic and Ecological Systems of the Siberian Branch of the Russian Academy of Sciences).

Abstract and keywords

Abstract (English):
In the present report, a hybrid method of opto-acoustic sensing of the atmosphere is presented and an opto-acoustic radar implementing it is described. In the proposed method, the elemental composition of atmospheric aerosols is determined from the optical spectrum of a laser spark emission, and acoustic radiation is used to measure the number density of micron and submicron aerosol particles, geometrical sizes of the laser spark, spectral acoustic transmission, and temperature and humidity of air.

Keywords:
atmosphere, opto-acoustic sensing, aerosol particles

References

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