Computer Science
Scientific paper
Jul 1983
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1983icar...55...73c&link_type=abstract
Icarus (ISSN 0019-1035), vol. 55, July 1983, p. 73-82.
Computer Science
39
Galactic Cosmic Rays, Gas Dissociation, Nitrogen, Satellite Atmospheres, Titan, Atmospheric Chemistry, Atmospheric Models, Gamma Ray Absorption, Hydrocyanic Acid, Voyager 1 Spacecraft, Saturn, Satellites, Titan, Cosmic Rays, Nitrogen, Photodissociation, Electromagnetic Effects, Particles, Absorption, Atmosphere, Pressure, Photochemistry, Organics, Ionozation, Composition, Models, Voyager 1, Observations, Hydrogen Cyanide, Methylamine, Hydrocarbons, Energy
Scientific paper
The electromagnetic and particle cascade resulting from the absorption of galactic cosmic rays in the atmosphere of Titan is shown to be an important mechanism for driving the photochemistry at pressures of 1 to 50 mbar in the atmosphere. In particular, the cosmic ray cascade dissociates N2, a process necessary for the synthesis of nitrogen organics such as HCN. The important interactions of the cosmic ray cascade with the atmosphere are discussed. The N2 excitation and dissociation rates and the ionization rates of the principal atmospheric consituents are computed for a Titan model atmosphere that is consistent with Voyager 1 observations. It is suggested that HCN may be formed efficiently in the lower atmosphere through the photodissociation of methylamine. It is also argued that models of nitrogen and hydrocarbon photochemistry in the lower atmosphere of Titan should include the absorption of galactic cosmic rays as an important energy source.
Capone L. A.
Dubach J.
Prasad Shiva
Whitten Robert C.
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