Length scale, quasiperiodicity, resonances, separatrix crossings, and chaos in the weakly relativistic Zakharov equations
Autor: | Oliveira, Glaucius Iahnke de, Rizzato, Felipe Barbedo, Chian, Abraham Chian-Long |
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Jazyk: | angličtina |
Rok vydání: | 1995 |
Předmět: | |
Zdroj: | Repositório Institucional da UFRGS Universidade Federal do Rio Grande do Sul (UFRGS) instacron:UFRGS |
Popis: | Nonlinear saturation of unstable solutions to the weakly relativistic, one-dimensional Zakharov equations is considered in this paper. In order to perform the analysis, two quantities are introduced. One of them, p* is proportional to the initial energy of the high-frequency 6eld, and the other is the basic wave vector of the low-frequency perturbing mode k = 2π/L, with L as the length scale. With these quantities it becomes possible to identify a number of regions on a p* versus k parametric plane. For very small values of p*, steady-state solutions become unstable when k is also very small. In this case ion-acoustic dynamics is found to be unimportant and the system is numerically shown to be approximately integrable, even if k is below a critical value where the solutions are not simply periodic. For larger values of p the unstable wave vectors also become larger and the ion-acoustic Huctuations turn into active dynamical modes of the system, driving a transition to chaos, which follows initial inverse pitchfork bifurcations. The transition includes resonant and quasiperiodic features; separatrix crossing phenomena are also found. The in6uence of relativistic terms on the chaotic dynamics is studied in the context of the Zakharov equations; it is shown that relativistic terms generally enhance the instabilities of the system, therefore anticipating the transition. |
Databáze: | OpenAIRE |
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