Article
DISTINGUISHING BETWEEN REGULAR AND CHAOTIC ORBITS OF FLOWS BY THE WEIGHTED BIRKHOFF AVERAGE Public Deposited
https://scholar.colorado.edu/concern/articles/sn00b031t
- Abstract
This paper investigates the utility of the weighted Birkhoff average (WBA) for distinguishing between regular and chaotic orbits of flows, extending previous results that applied the WBA to maps. It is shown that the WBA can be super-convergent for flows when the dynamics and phase space function are smooth, and the dynamics is conjugate to a rigid rotation with Diophantine rotation vector. The dependence of the accuracy of the average on orbit length and width of the weight function width are investigated. In practice, the average achieves machine precision of the rotation frequency of quasiperiodic orbits for an integration time of O(10^3) periods. The contrasting, relatively slow convergence for chaotic trajectories allows an efficient discrimination criterion. Three example systems are studied: a two-wave Hamiltonian system, a quasiperiodically forced, dissipative system that has a strange attractor with no positive Lyapunov exponents, and a model for magnetic field line flow.
- Creator
- Date Issued
- 2021
- Academic Affiliation
- Journal Title
- Journal Volume
- 449
- Last Modified
- 2023-06-19
- Resource Type
- Rights Statement
- DOI
- Language
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