Chaos in high-dimensional dynamical systems

Abstract

For general dissipative dynamical systems we study what fraction of solutions exhibit chaotic behavior depending on the dimensionality d of the phase space. We find that a system of d globally coupled ODE's with quadratic and cubic non-linearities with random coefficients and initial conditions, the probability of a trajectory to be chaotic increases universally from 10-5 - 10-4 for d=3 to essentially one for d 50. In the limit of large d, the invariant measure of the dynamical systems exhibits universal scaling that depends on the degree of non-linearity but does not depend on the choice of coefficients, and the largest Lyapunov exponent converges to a universal scaling limit. Using statistical arguments, we provide analytical explanations for the observed scaling and for the probability of chaos.