Litcius/Paper detail

The origin of chaos in the Solar System through computer algebra

Federico Mogavero, J. Laskar

2022Astronomy and Astrophysics26 citationsDOIOpen Access PDF

Abstract

The discovery of the chaotic motion of the planets in the Solar System dates back more than 30 years. Still, no analytical theory has satisfactorily addressed the origin of chaos so far. Implementing canonical perturbation theory in the computer algebra system TRIP, we systematically retrieve the secular resonances at work along the orbital solution of a forced long-term dynamics of the inner planets. We compare the time statistic of their half-widths to the ensemble distribution of the maximum Lyapunov exponent and establish dynamical sources of chaos in an unbiased way. New resonances are predicted by the theory and checked against direct integrations of the Solar System. The image of an entangled dynamics of the inner planets emerges.

Topics & Concepts

PlanetChaoticLyapunov exponentPerturbation (astronomy)PhysicsSolar SystemChaos theoryStatisticPerturbation theory (quantum mechanics)CHAOS (operating system)Statistical physicsClassical mechanicsAstronomyComputer scienceMathematicsQuantum mechanicsStatisticsArtificial intelligenceComputer securityScientific Research and DiscoveriesQuantum chaos and dynamical systemsAstro and Planetary Science