Computer Science – Sound
Scientific paper
Jun 1989
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1989esasp.291...49m&link_type=abstract
In ESA, European Rocket and Balloon Programs and Related Research p 49-53 (SEE N90-13826 05-42)
Computer Science
Sound
Absorption Cross Sections, Balloon Sounding, Oxygen Production, Photodissociation, Schumann-Runge Bands, Atmospheric Sounding, Atmospheric Temperature, Data Processing, European Space Programs
Scientific paper
The recalculation of atomic oxygen production rates by photodissociation in the Schumann-Runge band region, is performed. The results indicate that, on the whole, the new spectroscopic data do not give rise to large changes from the existing recommendations of the World Meteorological Organization. However, high atmospheric transmission in the region 194 to 200 nm, as observed by recent balloon experiments, is indicated. A method based on O2 column density and local atmospheric temperature is presented. The parameterization of the results is also considered. This parameterization is shown to be accurate to better than 5 percent for a wide range of solar zenith angles and atmospheric conditions.
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