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Chaotic Diffusion on Periodic Orbits: The Perturbed Arnol'd Cat Map

Chaotic Dynamics 2007-05-23 v1 Statistical Mechanics Mathematical Physics math.MP Plasma Physics

Abstract

Chaotic diffusion on periodic orbits (POs) is studied for the perturbed Arnol'd cat map on a cylinder, in a range of perturbation parameters corresponding to an extended structural-stability regime of the system on the torus. The diffusion coefficient is calculated using the following PO formulas: (a) The curvature expansion of the Ruelle zeta function. (b) The average of the PO winding-number squared, w2w^{2}, weighted by a stability factor. (c) The uniform (nonweighted) average of w2w^{2}. The results from formulas (a) and (b) agree very well with those obtained by standard methods, for all the perturbation parameters considered. Formula (c) gives reasonably accurate results for sufficiently small parameters corresponding also to cases of a considerably nonuniform hyperbolicity. This is due to {\em uniformity sum rules} satisfied by the PO Lyapunov eigenvalues at {\em fixed} ww. These sum rules follow from general arguments and are supported by much numerical evidence.

Keywords

Cite

@article{arxiv.nlin/0303018,
  title  = {Chaotic Diffusion on Periodic Orbits: The Perturbed Arnol'd Cat Map},
  author = {Itzhack Dana and Vladislav E. Chernov},
  journal= {arXiv preprint arXiv:nlin/0303018},
  year   = {2007}
}

Comments

6 Tables, 2 Figures (postscript); To appear in Physical Review E