Distributed chaos in the Hamiltonian dynamical systems and isotropic homogeneous turbulence

Abstract

It is shown that the distributed chaos in the simple Hamiltonian (conservative) dynamical systems, such as the Nose-Hoover oscillator and double oscillator, can mimic the distributed chaos in the isotropic homogeneous turbulence. Direct numerical simulations with the classic Toda lattice and with the nonlinear Schr\"odinger equation (soliton turbulence) under random initial conditions have been also discussed in this context. These properties of the distributed chaos have been related to analytical properties of the Hamiltonian systems. Decrease of the smoothness results in the power-law spectra instead of the stretched exponential ones characteristic to the distributed chaos, both for the dynamical systems and for turbulence.