Homoclinic orbits and chaos in discretized perturbed NLS systems: Part II. Symbolic dynamics |
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| Authors: | Y. Li S. Wiggins |
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| Affiliation: | (1) Department of Mathematics, University of California at Los Angeles, 90024 Los Angeles, CA, USA;(2) Present address: Department of Mathematics, 2-336, Massachusetts Institute of Technology, 02139 Cambridge, MA, USA;(3) Applied Mechanics, and Control and Dynamical Systems 116-81, California Institute of Technology, 91125 Pasadena, CA, USA |
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| Abstract: | Summary In Part I ([9], this journal), Li and McLaughlin proved the existence of homoclinic orbits in certain discrete NLS systems. In this paper, we will construct Smale horseshoes based on the existence of homoclinic orbits in these systems. First, we will construct Smale horseshoes for a general high dimensional dynamical system. As a result, a certain compact, invariant Cantor set Λ is constructed. The Poincaré map on Λ induced by the flow is shown to be topologically conjugate to the shift automorphism on two symbols, 0 and 1. This gives rise to deterministicchaos. We apply the general theory to the discrete NLS systems as concrete examples. Of particular interest is the fact that the discrete NLS systems possess a symmetric pair of homoclinic orbits. The Smale horseshoes and chaos created by the pair of homoclinic orbits are also studied using the general theory. As a consequence we can interpret certain numerical experiments on the discrete NLS systems as “chaotic center-wing jumping.” |
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| Keywords: | discretized nonlinear Schroedinger equations Smale horseshoes chaos |
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