FIELD TESTING OF MOBILE LIDAR FOR OZONE SENSING

Nevzorov A. A.; Tuzhilkin D. A.; Harchenko O. V.; Romanovskii Oleg

doi:doi:10.56820/conferencearticle_685be46804c4a2.92971995

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FIELD TESTING OF MOBILE LIDAR FOR OZONE SENSING

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FIELD TESTING OF MOBILE LIDAR FOR OZONE SENSING

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

Nevzorov A. A. ¹

Tuzhilkin D. A. ²

Harchenko O. V. ³

Romanovskii Oleg ⁴

Author and publication information

Authors:

1. Institut optiki atmosfery im. V.E. Zueva SO RAN

2. Institut optiki atmosfery im. V.E. Zueva SO RAN

3. Institut optiki atmosfery im. V.E. Zueva SO RAN

4. Institute of Atmospheric Optics SB RAS
Tomsk, Russian Federation

Type:

Сonference article

DOI:

https://doi.org/10.56820/conferencearticle_685be46804c4a2.92971995

EDN:

https://elibrary.ru/sezzrh

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, lidar, ozone

Funding:

Rabota vypolnena v ramkah gosudarstvennogo zadaniya IOA SO RAN.

Abstract and keywords

Abstract (English):
The results of field tests of a mobile lidar for ozone sensing are presented. The lidar operates on the basis of the differential absorption and scattering method at wavelengths of 299/341 nm and allows receiving lidar signals on a route up to ~18 km long. The lidar was installed on an isothermal van with an autonomous power supply system. Field tests were conducted on a horizontal route on the territory of the V.E. Zuev Institute of Atmospheric Optics. An example of field measurements and the result of lidar sensing are presented.

Keywords:
atmosphere, lidar, ozone

References

1. Belan B. D. Troposfernyy ozon. 1. Svoystva i rol' v prirodnyh i tehnogennyh processah // Optika atmosfery i okeana. 2008. T. 21. № 04. S. 299-322.

2. Perevedentsev Y.P., Shantalinskii K.M., Sherstyukov B.G., Guryanov V.V. Current Climatic Changes in the Troposphere, Stratosphere, and Mesosphere, and Inter-Layer Interactions // IOP Conf. Ser. Earth Environ. Sci. 2019. V. 386. DOI: https://doi.org/10.1088/1755-1315/386/1/012003

3. Matvienko G.G., Babushkin P.A., Bobrovnikov S.M., et. al. Laser and Optical Sounding of the Atmosphere // Atmospheric and Oceanic Optics, 2020, V. 33. No. 01. pp. 51–68. DOI: https://doi.org/10.1134/S102485602001008X

4. Nevzorov A.V., Nevzorov A.A., Harchenko O.V. Mobil'nyy lidar dlya zondirovaniya atmosfernogo ozona na naklonnyh i gorizontal'nyh trassah // Patent na izobretenie (Rossiya), № 2803518 ot 14.09.2023. Patentoobladatel': IOA SO RAN.

5. Dannye TOR-stancii. Prizemnaya koncentraciya ozona. URL: https://lop.iao.ru/ (data obrascheniya: 24.12.2024)

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