Add to ORKGInternational audienceUsing numerical simulations, we show that smooth migration of the giant planets through a planetesimal disk leads to an orbital architecture that is inconsistent with the current one: the resulting eccentricities and inclinations of their orbits are too small. The crossing of mutual mean motion resonances by the planets would excite their orbital eccentricities but not their orbital inclinations. Moreover, the amplitudes of the eigenmodes characterising the current secular evolution of the eccentricities of Jupiter and Saturn would not be reproduced correctly; only one eigenmode is excited by resonance-crossing. We show that, at the very least, encounters between Saturn and one of the ice giants (Uranus or Neptune) nee...
We examine how the late divergent migration of Jupiter and Saturn may have perturbed the terrestrial...
The dynamical features of the irregular satellites of the giant planets argue against an in-situ for...
Tsiganis et al. (2005) have proposed that the current orbital architecture of the outer solar system...
Using numerical simulations, we show that smooth migration of the giant planets through a planetesim...
International audienceWe investigate the dynamical evolution of the terrestrial planets during the p...
to be published in "Planets, Stars and Stellar Systems", P. Kalas and L. French (eds.)The apparent r...
International audienceWe study the orbital evolution of the 4 giant planets of our solar system in a...
Tsiganis et al. [Tsiganis, K., Gomes, R., Morbidelli, A., Levison, H.F., 2005. Nature 435, 459-461] ...
We investigate the dynamical evolution of the terrestrial planets during the planetesimal-driven mig...
International audienceIn a recent paper we proposed that the giant planets' primordial orbits may ha...
In press in IcarusWe study the possibility that the mutual interactions between Jupiter and Saturn p...
In a planetary system with two or more well-spaced, eccentric, inclined planets, secular interaction...
We present the results of simulations of the late stages of terrestrial planet formation under the g...
Instabilities and strong dynamical interactions between multiple giant planets have been proposed as...
Context: The formation of resonant planet pairs in exoplanetary systems involves planetary migration...
We examine how the late divergent migration of Jupiter and Saturn may have perturbed the terrestrial...
The dynamical features of the irregular satellites of the giant planets argue against an in-situ for...
Tsiganis et al. (2005) have proposed that the current orbital architecture of the outer solar system...
Using numerical simulations, we show that smooth migration of the giant planets through a planetesim...
International audienceWe investigate the dynamical evolution of the terrestrial planets during the p...
to be published in "Planets, Stars and Stellar Systems", P. Kalas and L. French (eds.)The apparent r...
International audienceWe study the orbital evolution of the 4 giant planets of our solar system in a...
Tsiganis et al. [Tsiganis, K., Gomes, R., Morbidelli, A., Levison, H.F., 2005. Nature 435, 459-461] ...
We investigate the dynamical evolution of the terrestrial planets during the planetesimal-driven mig...
International audienceIn a recent paper we proposed that the giant planets' primordial orbits may ha...
In press in IcarusWe study the possibility that the mutual interactions between Jupiter and Saturn p...
In a planetary system with two or more well-spaced, eccentric, inclined planets, secular interaction...
We present the results of simulations of the late stages of terrestrial planet formation under the g...
Instabilities and strong dynamical interactions between multiple giant planets have been proposed as...
Context: The formation of resonant planet pairs in exoplanetary systems involves planetary migration...
We examine how the late divergent migration of Jupiter and Saturn may have perturbed the terrestrial...
The dynamical features of the irregular satellites of the giant planets argue against an in-situ for...
Tsiganis et al. (2005) have proposed that the current orbital architecture of the outer solar system...