Hypothesis of strong chaos and anomalous diffusion in coupled symplectic maps

Details Hypothesis of strong chaos and anomalous diffusion in coupled symplectic maps Hypothesis of strong chaos and anomalous diffusion in coupled symplectic maps

2006-09-18

arxiv.org/abs/nlin/0609046v2

Europhys. Lett. 78, 10008 (2007)

Nonlinear Sciences

Chaotic Dynamics

5 pages, 3 figures. Revised version with small changes

Scientific paper

10.1209/0295-5075/78/10008

We investigate the high dimensional Hamiltonian chaotic dynamics in $N$ coupled area-preserving maps. We show the existence of an enhanced trapping regime caused by trajectories performing a random walk {\em inside} the area corresponding to regular islands of the uncoupled maps. As a consequence, we observe long intermediate regimes of power-law decay of the recurrence time statistics (with exponent $\gamma=0.5$) and of ballistic motion. The asymptotic decay of correlations and anomalous diffusion depend on the stickiness of the $N$-dimensional invariant tori. Detailed numerical simulations show weaker stickiness for increasing $N$ suggesting that high-dimensional Hamiltonian systems asymptotically fulfill the demands of the usual hypotheses of strong chaos.

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