Cover Page/Proposal Summary

ROSS-99    NRA 99-OSS-01

Date Due: 5/3/99

The atmospheric photochemistry of the outer planets and moons is controlled by hydrocarbon photolysis and radical recombination reactions. Reliable pressure-dependent rate constants are generally unavailable below 300K, but are needed to model hydrocarbon, methyl, nitrile, and CO concentrations and to derive atmospheric transport rates. The proposed research combines an RRKM theoretical approach with selected low temperature measurements, beginning with the key 2CH3=C2H6 reaction, to solve this modeling problem. The theoretical computations provide consistent rate parameters (vs. T and P) to describe all available data. Experiments will be conducted at 180K or lower with a laser photolysis - resonance enhanced multiphoton ionization (REMPI) detection technique to provide key low T data. Other important kinetics to be examined include steps leading to heavier polyynes and the nitrogen and oxygen kinetics relevant to Triton and Titan. The proposed research will contribute to the goals of the Planetary Atmospheres Program by providing kinetic models of the outer planets atmospheric photochemistry that properly describe the pressure and temperature dependences of the key reaction rates. Reliable values are not currently used or available, and are vital to proper interpretation of new and older atmospheric data, including the derivation of transport rates.