ESA Science & Technology - The Process of Tholin Formation in Titan's Upper Atmosphere

Publication date: 12 May 2007

Authors: J.H. Waite, Jr. et al.

Journal: Science
Volume: 316
Issue: 5826
Page: 870-875
Year: 2007

Copyright: American Association for the Advancement of Science

Titan's lower atmosphere has long been known to harbor organic aerosols (tholins) presumed to have been formed from simple molecules, such as methane and nitrogen (CH₄ and N₂). Up to now, it has been assumed that tholins were formed at altitudes of several hundred kilometers by processes as yet unobserved. Using measurements from a combination of mass/charge and energy/charge spectrometers on the Cassini spacecraft, we have obtained evidence for tholin formation at high altitudes (1000 kilometers) in Titan's atmosphere. The observed chemical mix strongly implies a series of chemical reactions and physical processes that lead from simple molecules (CH₄ and N₂) to larger, more complex molecules (80 to 350 daltons) to negatively charged massive molecules (8000 daltons), which we identify as tholins. That the process involves massive negatively charged molecules and aerosols is completely unexpected.