Add to ORKGOn timescales that greatly exceed an orbital period, typical planetary orbits evolve in a stochastic yet stable fashion. On even longer timescales, however, planetary orbits can spontaneously transition from bounded to unbound chaotic states. Large-scale instabilities associated with such behavior appear to play a dominant role in shaping the architectures of planetary systems, including our own. Here we show how such transitions are possible, focusing on the specific case of the long-term evolution of Mercury. We develop a simple analytical model for Mercury’s dynamics and elucidate the origins of its short-term stochastic behavior as well as of its sudden progression to unbounded chaos. Our model allows us to estimate the timescale on whi...
International audienceApart from being chaotic, the inner planets in the Solar system constitute an ...
International audienceApart from being chaotic, the inner planets in the Solar system constitute an ...
International audienceApart from being chaotic, the inner planets in the Solar system constitute an ...
On timescales that greatly exceed an orbital period, typical planetary orbits evolve in a stochastic...
On timescales that greatly exceed an orbital period, typical planetary orbits evolve in a stochastic...
On timescales that greatly exceed an orbital period, typical planetary orbits evolve in a stochastic...
Past work has shown that the dynamical evolution of the solar system's terrestrial planets is chaoti...
ABSTRACT We study the chaotic orbital evolution of planetary systems, focusing on secular (i.e., orb...
International audienceAlthough the discovery of the chaotic motion of the inner planets in the Solar...
Although the discovery of the chaotic motion of the inner planets in the Solar System (Mercury to Ma...
Although the discovery of the chaotic motion of the inner planets in the Solar System (Mercury to Ma...
Although the discovery of the chaotic motion of the inner planets in the Solar System (Mercury to Ma...
International audienceOrbital resonances are ubiquitous in the Solar System and are harbingers for t...
International audienceOrbital resonances are ubiquitous in the Solar System and are harbingers for t...
The evolution of the entire planetary system has been numerically integrated for a time span of ne...
International audienceApart from being chaotic, the inner planets in the Solar system constitute an ...
International audienceApart from being chaotic, the inner planets in the Solar system constitute an ...
International audienceApart from being chaotic, the inner planets in the Solar system constitute an ...
On timescales that greatly exceed an orbital period, typical planetary orbits evolve in a stochastic...
On timescales that greatly exceed an orbital period, typical planetary orbits evolve in a stochastic...
On timescales that greatly exceed an orbital period, typical planetary orbits evolve in a stochastic...
Past work has shown that the dynamical evolution of the solar system's terrestrial planets is chaoti...
ABSTRACT We study the chaotic orbital evolution of planetary systems, focusing on secular (i.e., orb...
International audienceAlthough the discovery of the chaotic motion of the inner planets in the Solar...
Although the discovery of the chaotic motion of the inner planets in the Solar System (Mercury to Ma...
Although the discovery of the chaotic motion of the inner planets in the Solar System (Mercury to Ma...
Although the discovery of the chaotic motion of the inner planets in the Solar System (Mercury to Ma...
International audienceOrbital resonances are ubiquitous in the Solar System and are harbingers for t...
International audienceOrbital resonances are ubiquitous in the Solar System and are harbingers for t...
The evolution of the entire planetary system has been numerically integrated for a time span of ne...
International audienceApart from being chaotic, the inner planets in the Solar system constitute an ...
International audienceApart from being chaotic, the inner planets in the Solar system constitute an ...
International audienceApart from being chaotic, the inner planets in the Solar system constitute an ...