The bathymetry of a Titan sea
Paillou, Philippe; Zebker, Howard; Lunine, Jonathan; Seu, Roberto; Mitri, Giuseppe; Picardi, Giovanni; Lorenz, Ralph; Poggiali, Valerio; Mastrogiuseppe, Marco; Hayes, Alexander; Flamini, Enrico; Notarnicola, Claudia
Italy, United States, France
Abstract
We construct the depth profile—the bathymetry—of Titan's large sea Ligeia Mare from Cassini RADAR data collected during the 23 May 2013 (T91) nadir-looking altimetry flyby. We find the greatest depth to be about 160 m and a seabed slope that is gentler toward the northern shore, consistent with previously imaged shoreline morphologies. Low radio signal attenuation through the sea demonstrates that the liquid, for which we determine a loss tangent of 3 ± 1·10-5, is remarkably transparent, requiring a nearly pure methane-ethane composition, and further that microwave absorbing hydrocarbons, nitriles, and suspended particles be limited to less than the order of 0.1% of the liquid volume. Presence of nitrogen in the ethane-methane sea, expected based on its solubility and dominance in the atmosphere, is consistent with the low attenuation, but that of substantial dissolved polar species or suspended scatterers is not.