Partial barriers to chaotic transport in 4D symplectic maps
Copyright policy )Partial barriers to chaotic transport in 4D symplectic maps
Chaotic transport in Hamiltonian systems is often restricted due to the presence of partial barriers, leading to a limited flux between different regions in phase space. Typically, the most restrictive partial barrier in a 2D symplectic map is based on a cantorus, the Cantor set remnants of a broken 1D torus. For a 4D symplectic map, we establish a partial barrier based on what we call a cantorus-NHIM—a normally hyperbolic invariant manifold with the structure of a cantorus. Using a flux formula, we determine the global 4D flux across a partial barrier based on a cantorus-NHIM by approximating it with high-order periodic NHIMs. In addition, we introduce a local 3D flux depending on the position along a resonance channel, which is relevant in the presence of slow Arnold diffusion. Moreover, for a partial barrier composed of stable and unstable manifolds of a NHIM, we utilize periodic NHIMs to quantify the corresponding flux.
- TU Dresden Germany
ddc:530, FOS: Physical sciences, Dynamical Systems (math.DS), Nonlinear Sciences - Chaotic Dynamics, Modellierung und Theorien nichtlinearer Dynamik, Chaoskarten, Transporteigenschaften, Hamiltonsche Mechanik, invariante Mannigfaltigkeit, Dynamical systems and ergodic theory, FOS: Mathematics, Mathematics - Dynamical Systems, Chaotic Dynamics (nlin.CD), info:eu-repo/classification/ddc/530, Nonlinear dynamics modeling and theories, Chaotic maps, Transport properties, Hamiltonian mechanics, Invariant manifold, Ordinary differential equations
ddc:530, FOS: Physical sciences, Dynamical Systems (math.DS), Nonlinear Sciences - Chaotic Dynamics, Modellierung und Theorien nichtlinearer Dynamik, Chaoskarten, Transporteigenschaften, Hamiltonsche Mechanik, invariante Mannigfaltigkeit, Dynamical systems and ergodic theory, FOS: Mathematics, Mathematics - Dynamical Systems, Chaotic Dynamics (nlin.CD), info:eu-repo/classification/ddc/530, Nonlinear dynamics modeling and theories, Chaotic maps, Transport properties, Hamiltonian mechanics, Invariant manifold, Ordinary differential equations
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