Add to ORKGAccepted for publication in A&A. 10 pages, 8 figures, 1 tableContext. Saturn's massive gravity is expected to causes a tide in Titan's atmosphere, producing a surface pressure variation through the orbit of Titan and tidal winds in the troposphere. The future Dragonfly mission could analyse this exotic meteorological phenomenon. Aims. We analyse the effect of Saturn's tides on Titan's atmosphere and interior to determine how pressure measurements by Dragonfly could constrain Titan's interior. Methods. We model atmospheric tides with analytical calculations and with a 3D Global Climate Model (the IPSL-Titan GCM), including the tidal response of the interior. Results. We predict that the Love numbers of Titan's interior should verify 1 + (k 2...
Since its arrival at Saturn in 2004, Cassini performed nine flybys of Titan that were dedicated to t...
Cassini radar observations show that Titan's spin is slightly faster than synchronous spin. Angular ...
none10siWe have detected in Cassini spacecraft data the signature of the periodic tidal stresses wit...
Accepted for publication in A&A. 10 pages, 8 figures, 1 tableContext. Saturn's massive gravity is ex...
International audienceContext. Saturn’s massive gravity is expected to causes a tide in Titan’s atmo...
Titan, Saturn's largest satellite, is subject to solid body tides exerted by Saturn on the timescale...
Saturn's largest natural satellite, Titan, is an icy moon expected to harbour a liquid sub-surface w...
Titan, the largest natural satellite with a significant free eccentricity, remains a mystery because...
International audienceThe Cassini-Huygens mission that explored the Saturn system during the period ...
245 pagesIn many ways, Titan is the most Earth-like body in the solar system with large dunes, stand...
With a thick atmosphere, a methane-based hydrological cycle, stable bodies of standing uid at its su...
Our solar system contains an impressive amount of celestial bodies. For example Saturn posses a huge...
This dissertation investigates the coupling between the large-scale atmospheric circulation and surf...
This dissertation explores the coupling between radiative and three-dimensional dynamical processes ...
Since its arrival at Saturn in 2004, Cassini performed nine flybys of Titan that were dedicated to t...
Cassini radar observations show that Titan's spin is slightly faster than synchronous spin. Angular ...
none10siWe have detected in Cassini spacecraft data the signature of the periodic tidal stresses wit...
Accepted for publication in A&A. 10 pages, 8 figures, 1 tableContext. Saturn's massive gravity is ex...
International audienceContext. Saturn’s massive gravity is expected to causes a tide in Titan’s atmo...
Titan, Saturn's largest satellite, is subject to solid body tides exerted by Saturn on the timescale...
Saturn's largest natural satellite, Titan, is an icy moon expected to harbour a liquid sub-surface w...
Titan, the largest natural satellite with a significant free eccentricity, remains a mystery because...
International audienceThe Cassini-Huygens mission that explored the Saturn system during the period ...
245 pagesIn many ways, Titan is the most Earth-like body in the solar system with large dunes, stand...
With a thick atmosphere, a methane-based hydrological cycle, stable bodies of standing uid at its su...
Our solar system contains an impressive amount of celestial bodies. For example Saturn posses a huge...
This dissertation investigates the coupling between the large-scale atmospheric circulation and surf...
This dissertation explores the coupling between radiative and three-dimensional dynamical processes ...
Since its arrival at Saturn in 2004, Cassini performed nine flybys of Titan that were dedicated to t...
Cassini radar observations show that Titan's spin is slightly faster than synchronous spin. Angular ...
none10siWe have detected in Cassini spacecraft data the signature of the periodic tidal stresses wit...