The effect of long-range interactions on the dynamics and statistics of 1D Hamiltonian lattices with on-site potential

Abstract

We examine the role of long--range interactions on the dynamical and statistical properties of two 1D lattices with on--site potentials that are known to support discrete breathers: the Klein--Gordon (KG) lattice which includes linear dispersion and the Gorbach--Flach (GF) lattice, which shares the same on--site potential but its dispersion is purely nonlinear. In both models under the implementation of long--range interactions (LRI) we find that single--site excitations lead to special low--dimensional solutions, which are well described by the undamped Duffing oscillator. For random initial conditions we observe that the maximal Lyapunov exponent λ %: (a) tends to a positive value for KG and grows like (.25) for GF as the energy density =E/N increases; (b) saturates to a positive value as the number of particles N increase, scales as N-0.12 in the KG model and as N-0.27 in the GF with LRI, suggesting in that case an approach to integrable behavior towards the thermodynamic limit. Furthermore, under LRI, their non-Gaussian momentum distributions are distinctly different from those of the FPU model.