The Role of Charging in the Formation of Molecular Hydrogen In Titan's Atmosphere

Details The Role of Charging in the Formation of Molecular Hydrogen In Titan's Atmosphere The Role of Charging in the Formation of Molecular Hydrogen In Titan's Atmosphere

Oct 2000

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000dps....32.2205b&link_type=abstract

American Astronomical Society, DPS Meeting #32, #22.05; Bulletin of the American Astronomical Society, Vol. 32, p.1033

Biology

Scientific paper

Titan's haze dominates its temperature, atmospheric circulation and climate control. Photochemistry plays a key role in the structure and evolution of the haze. This paper describes the impact of the presence of aromatic macromolecules (both pure hydrocarbons and nitrogenated species) in the haze in particular because prior studies indicate that they constitute a significant component of Titan tholin. These molecules have a strong influence over the thermodynamics and radiation absorption properties of the Titan haze because they are efficient absorbers in the ultraviolet and strong emitters in the infrared. Furthermore, they profoundly influence Titan's chemistry directly through their charge state because they are efficient charge exchange intermediaries and are highly electrophilic. This facilitates the catalytic formation of molecular hydrogen and provides a viable mechanism for the removal of highly reactive hydrogen atoms from the atmosphere. Specifically, we quantify the charge states of submicron aerosols and aromatic molecules and then study how this influences the rate of formation of molecular hydrogen. We find that the dominant charge state for macromolecules is neutral and negative, while for the larger aerosols, the predominant charge state is positive. We describe the prompt reaction model for the formation of molecular hydrogen on aerosol surfaces and contrast this with the formation of molecular hydrogen using negatively charged aromatics. Finally, we comment on the consequences of the charge states of these two populations for aerosol agglomeration and the seasonal variations of the albedo of the Titan Haze. We thank NASA's Exobiology Program for Bakes' funding for this work.

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