Spatiotemporal Structures of Parametrically Driven Nonlinear Lattices

Abstract

We theoretically investigate the effects of parametric driving on the one-dimensional Frenkel-Kontorova model, a nonlinear many-body lattice system. It is numerically found that a parametric vibration induces spatiotemporal ordering characterized by the subharmonic frequency ωex/2 and wavenumber k which takes nontrivial values depending on the vibration strength Pac and frequency ωex. With increasing Pac, k gradually increases and discontinuously jumps up to k=π. Based on an extended linear stability analysis, we show that the former k resonance (the latter π resonance) corresponds to the unstable (stable) mode and that the k resonance is made possible by the interplay between the parametric amplification and the collective fluctuation developing through the nonlinear effect.