Bifurcation of limit cycles in a quintic Hamiltonian system under a sixth-order perturbation |
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Affiliation: | Department of Applied Mathematics, The University of Western Ontario, London, Ont., Canada N6A 5B7 |
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Abstract: | This paper intends to explore the bifurcation of limit cycles for planar polynomial systems with even number of degrees. To obtain the maximum number of limit cycles, a sixth-order polynomial perturbation is added to a quintic Hamiltonian system, and both local and global bifurcations are considered. By employing the detection function method for global bifurcations of limit cycles and the normal form theory for local degenerate Hopf bifurcations, 31 and 35 limit cycles and their configurations are obtained for different sets of controlled parameters. It is shown that: H(6) ⩾ 35 = 62 − 1, where H(6) is the Hilbert number for sixth-degree polynomial systems. |
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