We examine how the late divergent migration of Jupiter and Saturn may have perturbed the terrestrial planets. Using a modified secular model we have identified six secular resonances between the nu(5) frequency of Jupiter and Saturn and the four apsidal eigenfrequencies of the terrestrial planets (g(1-4)). We derive analytic upper limits on the eccentricity and orbital migration timescale of Jupiter and Saturn when these resonances were encountered to avoid perturbing the eccentricities of the terrestrial planets to values larger than the observed ones. Because of the small amplitudes of the j = 2, 3 terrestrial eigenmodes the g(2)-nu(5) and g(3)-nu(5) resonances provide the strongest constraints on giant planet migration. If Jupiter and Sa...
International audienceJupiter and Saturn formed in a few million years (ref. 1) from a gas-dominated...
The dynamical features of the irregular satellites of the giant planets argue against an in-situ for...
The differential migration of two planets due to planet-disk interaction can result in capture into ...
We investigate the dynamical evolution of the terrestrial planets during the planetesimal-driven mig...
International audienceWe investigate the dynamical evolution of the terrestrial planets during the p...
We study the effects of planetary late migration on the gas giants ’ obliquities. We consider the pl...
The migration and encounter histories of the giant planets in our Solar System can be constrained by...
The migration of the giant planets due to the scattering of planetesimals causes powerful resonances...
Oral - Session 04. Solar System Origin, Planet and Satellite Formation: 04.04The obliquities of the ...
In press in IcarusWe study the possibility that the mutual interactions between Jupiter and Saturn p...
International audienceThe obliquity of a planet is the tilt between its equator and its orbital plan...
We use numerical integrations to investigate the dynamical evolution of resonant Trojan and quasi-sa...
The recently discovered planetary system HD 45364, which consists of a Jupiter and Saturn-mass plane...
Using numerical simulations, we show that smooth migration of the giant planets through a planetesim...
The main asteroid belt spans ~2-4 AU in heliocentric distance and is sparsely populated by rocky deb...
International audienceJupiter and Saturn formed in a few million years (ref. 1) from a gas-dominated...
The dynamical features of the irregular satellites of the giant planets argue against an in-situ for...
The differential migration of two planets due to planet-disk interaction can result in capture into ...
We investigate the dynamical evolution of the terrestrial planets during the planetesimal-driven mig...
International audienceWe investigate the dynamical evolution of the terrestrial planets during the p...
We study the effects of planetary late migration on the gas giants ’ obliquities. We consider the pl...
The migration and encounter histories of the giant planets in our Solar System can be constrained by...
The migration of the giant planets due to the scattering of planetesimals causes powerful resonances...
Oral - Session 04. Solar System Origin, Planet and Satellite Formation: 04.04The obliquities of the ...
In press in IcarusWe study the possibility that the mutual interactions between Jupiter and Saturn p...
International audienceThe obliquity of a planet is the tilt between its equator and its orbital plan...
We use numerical integrations to investigate the dynamical evolution of resonant Trojan and quasi-sa...
The recently discovered planetary system HD 45364, which consists of a Jupiter and Saturn-mass plane...
Using numerical simulations, we show that smooth migration of the giant planets through a planetesim...
The main asteroid belt spans ~2-4 AU in heliocentric distance and is sparsely populated by rocky deb...
International audienceJupiter and Saturn formed in a few million years (ref. 1) from a gas-dominated...
The dynamical features of the irregular satellites of the giant planets argue against an in-situ for...
The differential migration of two planets due to planet-disk interaction can result in capture into ...