Other
Scientific paper
Dec 2011
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2011agufm.p13c1686k&link_type=abstract
American Geophysical Union, Fall Meeting 2011, abstract #P13C-1686
Other
[5729] Planetary Sciences: Fluid Planets / Ionospheres, [6275] Planetary Sciences: Solar System Objects / Saturn
Scientific paper
Radio occultation measurements have shown that persistent electron density layers are observed in the lower ionospheres of Saturn. H2 is the major component of the Saturn lower thermosphere, and in the photon range 845 to 1116 A, it absorbs in discrete transitions from the ground state (X) to vibrational levels of excited electronic states. The cross sections for these absorptions vary greatly from the centers to the wings of the H2 absorption lines. We model here the ionization rates of hydrocarbons by photons that penetrate to low altitudes in the wings and gaps in the H2 absorption spectrum in this wavelength range. The calculation requires construction of very high resolution cross sections for H2, and a similarly high resolution solar flux spectrum. We have constructed a photoabsorption spectrum of H2 at a resolution of 0.001 A, using a new set of cross sections for rovibrational lines in H2 Lyman (B - X), Werner (C - X), and the Rydberg B' - X and D - X band systems. We combined the high resolution cross sections with high resolution solar spectra that were constructed from the SOHO/SUMER (Curdt et al., 2001) measured spectrum for the quiet solar disk and a SOLAR2000 spectrum (e.g., Tobiska, 2004) for low solar activity. We compute the photo- and photo-electron-impact processes for H2, H, He, and CH4, and photo processes for 15 of the most important neutral species in the lower ionosphere of Saturn, including C2H2, C2H4, C2H6, CH3, CH3C2H, H2O, CO, C, CH, C2, O, O2, CO2, H2CO, and CH3OH, with updated cross sections for these processes. We find that significant solar fluxes in this wavelength range, especially at the CIII 977.02 and OVI 1031.91 solar lines, penetrate to near the hydrocarbon homopause, resulting in photoionization of hydrocarbons. For the ionospheric chemistry, we compiled from the literature a set of 727 rate coefficients for ion-neutral, neutral-neutral, and dissociative recombination reactions of 47 ion species and 26 neutral species. The reaction set is more-or-less complete for hydrocarbon ions with up to 4 carbon atoms, and those containing one oxygen atom. The model for low solar activity shows a hydrocarbon ion layer in the altitude range of 600 - 900 km above 1 bar level, where the peak densities are 4×103, 7×102, and 1×102 cm-3 at noon dusk and dawn, respectively. The hydrocarbon ion layer is composed mainly of CH5+, C2H3+, C3H5+, C5Hn+, and C6Hn+ at daytime, but at night time CH5+ and C2H3+, as intermediate ions, disappear more quickly than others due to reactions with ambient hydrocarbon neutrals in addition to their own recombination with electrons. The model also shows layers of H3O+ and H3+ above the hydrocarbon ion layer, and H+ ions form the main peak of the ionosphere, as has been shown by many other modelers. We will discuss sensitivities of our models to input solar spectra, background neutral atmosphere models, vibrational temperatures of H2, and recombination coefficient sets for the ions.
Black John Harry
Fox Lewis J.
Kim Yup
Moses Julianne I.
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