Physics
Scientific paper
Mar 1990
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1990icar...84..106c&link_type=abstract
Icarus (ISSN 0019-1035), vol. 84, March 1990, p. 106-117.
Physics
6
Airglow, Atmospheric Physics, Atomic Energy Levels, Linear Polarization, Planetary Atmospheres, Resonance Scattering, Angular Distribution, Anisotropy, Fluorescence, Hyperfine Structure, Planets, Airglow, Ionosphere, Scattering, Atmosphere, Composition, Distribution, Intensity, Polarization, Optical Properties, Resonance, Radiation, Fluorescence, Spectra, Structure, Calculations, Data, Techniques
Scientific paper
Formulas are derived for the swift calculation of the angular intensity distribution and the degree of polarization associated with the resonant and fluorescent scattering of radiation by atoms which occurs in the rarefied upper atmospheres of planets during sunlit airglow phenomena. Attention is given to spectral lines with hyperfine structure, which are indicative of nuclear spin processes. The method employed involves summations over Zeeman components, allowing an evaluation of polarization through the addition of underlying simple resonant and fluorescent scattering channels.
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