Ítem
Rius, J.
Figueras, M. Herrero, Ramon Farjas Silva, Jordi Pi i Vila, Francesc Orriols Tubella, Gaspar |
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15 febrer 2020 | |
We report experimental and numerical results showing how certain N-dimensional dynamical systems are able to exhibit complex time evolutions based on the nonlinear combination of N-1 oscillation modes. The experiments have been done with a family of thermo-optical systems of effective dynamical dimension varying from 1 to 6. The corresponding mathematical model is an N-dimensional vector field based on a scalar-valued nonlinear function of a single variable that is a linear combination of all the dynamic variables. We show how the complex evolutions appear associated with the occurrence of successive Hopf bifurcations in a saddle-node pair of fixed points up to exhaust their instability capabilities in N dimensions. For this reason the observed phenomenon is denoted as the full instability behavior of the dynamical system. The process through which the attractor responsible for the observed time evolution is formed may be rather complex and difficult to characterize. Nevertheless, the well-organized structure of the time signals suggests some generic mechanism of nonlinear mode mixing that we associate with the cluster of invariant sets emerging from the pair of fixed points and with the influence of the neighboring saddle sets on the flow nearby the attractor. The generation of invariant tori is likely during the full instability development and the global process may be considered as a generalized Landau scenario for the emergence of irregular and complex behavior through the nonlinear superposition of oscillatory motions | |
http://hdl.handle.net/2072/373197 | |
eng | |
American Institute of Physics | |
Tots els drets reservats | |
Sistemes dinàmics diferenciables
Differentiable dynamical systems H-espais H-spaces Oscil·lacions no lineals Nonlinear oscillations |
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N-dimensional dynamical systems exploiting instabilities in full | |
info:eu-repo/semantics/article | |
Recercat |