Algebraic decay in self-similar Markov chains |
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| Authors: | James D. Hanson John R. Cary James D. Meiss |
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| Affiliation: | (1) Institute for Fusion Studies, The University of Texas at Austin, 78712 Austin, Texas;(2) Present address: Department of Physics, Auburn University, 36849 Auburn, Alabama;(3) Present address: Department of Astrophysical, Planetary, and Atmospheric Sciences, University of Colorado, 80309 Boulder, Colorado |
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| Abstract: | A continuous-time Markov chain is used to model motion in the neighborhood of a critical invariant circle for a Hamiltonian map. States in the infinite chain represent successive rational approximants to the frequency of the invariant circle. For the case of a noble frequency, the chain is self-similar and the nonlinear integral equation for the first passage time distribution is solved exactly. The asymptotic distribution is a power law times a function periodic in the logarithm of the time. For parameters relevant to the critical noble circle, the decay proceeds ast–4.05. |
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| Keywords: | Birth and death process Hamiltonian stochasticity |
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