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Variations in rotation rate and polar motion of a non-hydrostatic Titan
Coyette, A.; Baland, R.-M.; Van Hoolst, T. (2018). Variations in rotation rate and polar motion of a non-hydrostatic Titan. Icarus 307: 83-105. https://dx.doi.org/10.1016/j.icarus.2018.02.003
In: Icarus. Elsevier. ISSN 0019-1035; e-ISSN 1090-2643, more
Peer reviewed article  

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Author keywords
    Titan; Libration; Interior structure

Authors  Top 
  • Coyette, A., more
  • Baland, R.-M., more
  • Van Hoolst, T., more

Abstract
    Observation of the rotation of synchronously rotating satellites can help to probe their interior. Previous studies mostly assume that these large icy satellites are in hydrostatic equilibrium, although several measurements indicate that they deviate from such a state. Here we investigate the effect of non-hydrostatic equilibrium and of flow in the subsurface ocean on the rotation of Titan. We consider the variations in rotation rate and the polar motion due to (1) the gravitational force exerted by Saturn at orbital period and (2) exchanges of angular momentum between the seasonally varying atmosphere and the solid surface. The deviation of the mass distribution from hydrostaticity can significantly increase the diurnal libration and decrease the amplitude of the seasonal libration. The effect of the non-hydrostatic mass distribution is less important for polar motion, which is more sensitive to flow in the subsurface ocean. By including a large spectrum of atmospheric perturbations, the smaller than synchronous rotation rate measured by Cassini in the 2004-2009 period (Meriggiola et al., 2016) could be explained by the atmospheric forcing. If our interpretation is correct, we predict a larger than synchronous rotation rate in the 2009-2014 period.

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