Method and instrument for the observation of the integral content of NO2 in the troposphere from an aircraft by reflected solar radiation

Eleonora A. Chayanova

doi:10.1117/12.317762

18 August 1998 Method and instrument for the observation of the integral content of NO₂ in the troposphere from an aircraft by reflected solar radiation

Eleonora A. Chayanova

Author Affiliations +

Proceedings Volume 3501, Optical Remote Sensing of the Atmosphere and Clouds; (1998) https://doi.org/10.1117/12.317762
Event: Asia-Pacific Symposium on Remote Sensing of the Atmosphere, Environment, and Space, 1998, Beijing, China

Abstract

The integral content of NO₂ in the troposphere layer below an aircraft flight level has been measured based on solar radiation reflected by the earth. These measurements were made using a spectrometer with a tunable interference-polarization filter in region 430-450 nm, looking at "nadir" from board an aircraft. There are short descriptions of the instrument, methodology an estimate errors. Results measurements compared with calculations by using models vertical distribution of NO₂ in the troposphere. At the middle latitudes of the European and Asian parts of Russia the troposphere integral NO₂ amount is 3.0•10¹⁶ - 3.2•10¹⁶ molec cm^-2 during daytime in summer. In polar regions the troposphere integral NO₂ amount during daytime in summer ranges within 1.0•10¹⁶ - 1.5•10¹⁶ molec cm^-2, it can be attributed to the absence of ground sources there. A diurnal NO₂ variation in the troposphere has been revealed which is inverse to that in the stratosphere. By sunset, NO₂ content decreases nearly by a factor of 2. It has been detected that NO₂ amount increases in the northern part of Western Siberia to range within 4.6•10¹⁶ - 5.8•10¹⁶ molec cm^-2. This can be accounted for by the influence of industrial sources located in this region. Their effect is noticeable at distances up to 1000 km.

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Eleonora A. Chayanova "Method and instrument for the observation of the integral content of NO₂ in the troposphere from an aircraft by reflected solar radiation", Proc. SPIE 3501, Optical Remote Sensing of the Atmosphere and Clouds, (18 August 1998); https://doi.org/10.1117/12.317762

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KEYWORDS

NOx

Troposphere

Spectroscopy

Solar radiation models

Statistical modeling

Stratosphere

Solar radiation

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