Computer Science
Scientific paper
Jul 1999
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999icar..140...92g&link_type=abstract
Icarus, Volume 140, Issue Icarus, pp. 92-105.
Computer Science
44
Scientific paper
We have solved a stationary Boltzmann transport equation to describe the ionosphere of Titan in two simple cases. The first one deals with the satellite being outside the Kronian magnetosphere on the dayside of Saturn, which happens under strong solar wind conditions. In that case, the main energy source of ionization is the solar photons. We show the effect of the photoionization and the secondary ion production for a solar zenith angle of 45 deg. The electron production peaks at 25 electrons s^-1 cm^-3 around 1000 km. We estimate the electron density from a comprehensive chemical code. This electron density is then compared with the one computed from a simple recombination model. Finally, we determine the intensity of nitrogen emissions, which are compared to the Voyager 1 measurements. In the second case, the satellite is inside Saturn's magnetosphere. We show the effect of the ionization due to electron precipitation at night, above the polar regions. The input electron flux is measured by the Voyager probes, gathered from several instruments on board. A simple Kappa distribution is given to model a mean electron flux precipitating on Titan. We show that the electron production ranges between 1 to 5 electrons s^-1 cm^-3 between about 550 and 650 km. The electron production due to the photoionization above the pole is evaluated and compared to the effect of the kronian electron precipitation.
Galand Marina
Lilensten Jean
Maurice Sylvestre
Toublanc Dominique
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