Other
Scientific paper
May 1992
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1992suny.reptq....s&link_type=abstract
Final Report, 15 Dec. 1984 - 14 Dec. 1991 State Univ. of New York, Stony Brook. Dept. of Earth and Space Sciences.
Other
Ammonia, Atmospheric Chemistry, Gas Giant Planets, High Temperature Plasmas, Hot Atoms, Hydrogen Atoms, Jupiter Atmosphere, Lightning, Nitrogen, Photodissociation, Acetylene, Cirrus Clouds, Elastic Scattering, Emittance, Ethane, Hydrocarbons, Hydrocyanic Acid, Hydrogen, Meteoroids, Methane, Organic Chemistry, Photolysis, Thermodynamics, Titan
Scientific paper
Various aspects were studied of past or present chemistry in the atmospheres of the outer planets and their satellites using lab simulations. Three areas were studied: (1) organic chemistry induced by kinetically hot hydrogen atoms in the region of Jupiter's atmosphere containing the ammonia cirrus clouds; (2) the conversion of NH3 into N2 by plasmas associated with entry of meteors and other objects into the atmosphere of early Titan; and (3) the synthesis of simple hydrocarbons and HCN by lightning in mixtures containing N2, CH4, and NH3 representing the atmospheres of Titan and the outer planets. The results showed that: (1) hot H2 atoms formed from the photodissociation of NH3 in Jupiter's atmosphere could account for some of the atmospheric chemistry in the ammonia cirrus cloud region; (2) the thermalization of hot H2 atoms in atmospheres predominated by molecular H is not as rapid as predicted by elastic collision theory; (3) the net quantum loss of NH3 in the presence of a 200 fold excess of H2 is 0.02, much higher than was expected from the amount of H2 present; (4) the conversion of NH3 into N2 in plasmas associated with infalling meteors is very efficient and rapid, and could account for most of the N2 present on Titan; (5) the yields of C2H2 and HCN from lightning induced chemistry in mixtures of CH4 and N2 is consistent with quenched thermodynamic models of the discharge core; and (6) photolysis induced by the UV light emitted by the gases in the hot plasmas may account for some, if not most, of the excess production of C2H6 and the more complex hydrocarbons.
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