Dynamics and transport in mean-field coupled, many degrees-of-freedom, area-preserving nontwist maps

L. Carbajal, D. del-Castillo-Negrete, J. J. Martinell

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7 Scopus citations

Abstract

Area-preserving nontwist maps, i.e., maps that violate the twist condition, arise in the study of degenerate Hamiltonian systems for which the standard version of the Kolmogorov-Arnold-Moser (KAM) theorem fails to apply. These maps have found applications in several areas including plasma physics, fluid mechanics, and condensed matter physics. Previous work has limited attention to maps in 2-dimensional phase space. Going beyond these studies, in this paper, we study nontwist maps with many-degrees-of-freedom. We propose a model in which the different degrees of freedom are coupled through a mean-field that evolves self-consistently. Based on the linear stability of period-one and period-two orbits of the coupled maps, we construct coherent states in which the degrees of freedom are synchronized and the mean-field stays nearly fixed. Nontwist systems exhibit global bifurcations in phase space known as separatrix reconnection. Here, we show that the mean-field coupling leads to dynamic, self-consistent reconnection in which transport across invariant curves can take place in the absence of chaos due to changes in the topology of the separatrices. In the context of self-consistent chaotic transport, we study two novel problems: suppression of diffusion and breakup of the shearless curve. For both problems, we construct a macroscopic effective diffusion model with time-dependent diffusivity. Self-consistent transport near criticality is also studied, and it is shown that the threshold for global transport as function of time is a fat-fractal Cantor-type set.

Original languageEnglish
Article number013137
JournalChaos
Volume22
Issue number1
DOIs
StatePublished - Jan 3 2012

Funding

L.C. and J.J.M. acknowledge support from CONACyT mixed fellowships program, the DGAPA-UNAM projects IN119408 and IN106911, and the UNAM PAEP program. L.C. acknowledges the hospitality and support of the ORNL Fusion Energy Division during the elaboration of this work. D.d.-C.-N. thanks Alex Wurm for valuable discussions during the early stages of this research. D.d.-C.-N. was sponsored by the Oak Ridge National Laboratory, managed by UT-Battelle, LLC, for the U.S. Department of Energy under Contract No. DE-AC05-00OR22725.

FundersFunder number
DGAPA-UNAMIN106911, IN119408
U.S. Department of EnergyDE-AC05-00OR22725
Oak Ridge National Laboratory
Consejo Nacional de Ciencia y Tecnología

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