1 July 2005 Spectroradiometric inspection of nuclear pollution in the atmosphere based on photochemical effects
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Optical Engineering, 44(7), 071210 (2005). doi:10.1117/1.1955204
Abstract
Results of theoretical and experimental investigations of remote monitoring methods based on secondary radioactivity effects including anomalous gaseous fields and their emissions in optical and microwave ranges are discussed. The feasibility of remote registration of secondary emission and absorption spectra from weakly ionized regions in the atmosphere above nuclear power engineering objects, dumps, and tailings dumps of nuclear wastes are examined. Based on the literature data on the excess concentrations of aerosol and gaseous components produced in radiation fields above their background levels, the diffusion parameters of radioactive emissions in the atmosphere are evaluated. The methods under consideration are shown to be promising for ecological monitoring of atmospheric radioactive pollution. High sensitivities of these methods enable pollutants to be detected at long distances. Simultaneous use of passive and active methods gives additional information on the parameters of radioactive pollution.
Liliya K. Chistyakova, Yurii D. Kopytin, "Spectroradiometric inspection of nuclear pollution in the atmosphere based on photochemical effects," Optical Engineering 44(7), 071210 (1 July 2005). http://dx.doi.org/10.1117/1.1955204
JOURNAL ARTICLE
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KEYWORDS
Pollution

Atmospheric particles

Aerosols

LIDAR

Atmospheric sensing

Absorption

Atmospheric monitoring

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