Lotka–Volterra systems satisfying a strong Painlevé property
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Date
2016-09
Authors
Bountis, Tassos
Vanhaecke, Pol
Journal Title
Journal ISSN
Volume Title
Publisher
Physics Letters A
Abstract
We use a strong version of the Painlevé property to discover and characterize a new class of n-dimensional Hamiltonian Lotka–Volterra systems, which turn out to be Liouville integrable as well as superintegrable. These systems are in fact Nambu systems, they posses Lax equations and they can be explicitly integrated in terms of elementary functions. We apply our analysis to systems containing only quadratic nonlinearities of the form aijxixj, i =j, and require that all variables diverge as t−1. We also require that the leading terms depend on n −2free parameters. We thus discover a cocycle relation among the coefficients aijof the equations of motion and by integrating the cocycle equations we show that they are equivalent to the above strong version of the Painlevé property. We also show that these systems remain explicitly solvable even if a linear term bixiis added to the i-th equation, even though this violates the Painlevé property, as logarithmic singularities are introduced in the Laurent solutions, at the first terms following the leading order pole.
Description
Keywords
Integrable Lotka Volterra systems, Strong Painlevé property
Citation
Tassos Bountisa, Pol Vanhaecke. 2016. Lotka–Volterra systems satisfying a strong Painlevé property. Physics Letters A