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Lower bounds for the number of limit cycles in a generalised Rayleigh–Liénard oscillator

Rodrigo D. Euzébio, Jaume Llibre, Durval J. Tonon

2022Nonlinearity12 citationsDOIOpen Access PDF

Abstract

Abstract In this paper a generalised Rayleigh–Liénard oscillator is consider and lower bounds for the number of limit cycles bifurcating from weak focus equilibria and saddle connections are provided. By assuming some open conditions on the parameters of the considered system the existence of up to twelve limit cycles is provided. More precisely, the approach consists in perform suitable changes in the sign of some specific parameters and apply Poincaré–Bendixson theorem for assure the existence of limit cycles. In particular, the algorithm for obtaining the limit cycles through the referred approach is explicitly exhibited. The main techniques applied in this study are the Lyapunov constants and the Melnikov method. The obtained results contemplate the simultaneity of limit cycles of small amplitude and medium amplitude, the former emerging from a weak focus equilibrium and the latter from homoclinic or heteroclinic saddle connections.

Topics & Concepts

MathematicsLimit (mathematics)SaddleLimit cycleHomoclinic orbitMathematical analysisLiénard equationFocus (optics)Sign (mathematics)BifurcationMathematical optimizationPartial differential equationNonlinear systemQuantum mechanicsPhysicsOpticsExact differential equationFirst-order partial differential equationAdvanced Differential Equations and Dynamical SystemsAdvanced Differential Geometry ResearchChaos control and synchronization
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