Abstract
Optical-electronic system for atmospheric composition registration is considered. It is intended to identify the influence of anthropogenic emissions into the atmosphere on its optical properties and the Earth’s climate on a planetary scale. Anthropogenic emissions into the atmosphere increase due to the growth of planet population and expansion of its economic activity. The increasing scale of influence of various ingredients of anthropogenic emissions on the atmosphere requires studying their optical properties and carrying out research on the atmospheric composition in order to identify temporal trends in the concentrations of small and trace components of the atmosphere and their influence on changes in the Earth’s climate.
Highlights
This work aims to obtain baseline data for the developers of optical-electronic instruments for recording the composition of anthropogenic emissions and studying optical characteristics of various ingredients in a wide spectral range of 0.1–100 μm
The developed modeling complexes described in [1,2,3,4] can serve as prototypes of more modern optical-electronic systems designed to control the gas and dispersed ingredient composition of the atmospheric emissions phases by industrial enterprises, energy enterprises, vehicles, aeronautics, as a result of agricultural activity and cattle breeding
Testing of the developed complexes [1,2,3,4,5] with obtaining positive results in vacuum ultraviolet (VUV) and far infrared regions provides the prospect of creating operating measuring complexes of an extended spectral range
Summary
This work aims to obtain baseline data for the developers of optical-electronic instruments for recording the composition of anthropogenic emissions and studying optical characteristics of various ingredients in a wide spectral range of 0.1–100 μm.
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