Hilbert's 16th problem. I. When differential systems meet variational methods
Abstract
We provide an upper bound for the number of limit cycles that planar polynomial differential systems of a given degree may have. The bound turns out to be a polynomial of degree four in the degree of the system. The strategy brings together variational and dynamical system techniques by transforming the task of counting limit cycles into counting critical points for a certain smooth, non-negative functional, through Morse inequalities, for which limit cycles are global minimizers. We thus solve the second part of Hilbert's 16th problem providing a uniform upper bound for the number of limit cycles which only depends on the degree of the polynomial differential system.
Cite
@article{arxiv.1904.01292,
title = {Hilbert's 16th problem. I. When differential systems meet variational methods},
author = {Jaume Llibre and Pablo Pedregal},
journal= {arXiv preprint arXiv:1904.01292},
year = {2020}
}
Comments
An improvement on the upper bound of limit cycles of planar polynomial differential systems has been found