On the completely integrable case of the Rössler system (Q2860769)

The Rössler system is a three-dimensional system of ordinary differential equations depending on three parameters showing in general chaotic behaviour. It is known [\textit{X. Zhang}, Int. J. Bifurcation Chaos Appl. Sci. Eng. 14, No. 12, 4275--4283 (2004; Zbl 1085.34505)] that only for one specific choice of the parameters a completely integrable system arises. The authors analyse this case from the point of view of Poisson geometry. They first present a family of Hamilton-Poisson realisations parametrised by \(\mathrm{SL}(2,\mathbb R)\). Then they determine the equilibria and their Lyapunov stability. Using the Lyapunov center theorem, they furthermore prove the existence of periodic solutions in the neighbourhood the stable equilibria. Finally, the authors study the energy-Casimir mapping of a specific Hamilton-Poisson realisation and derive a Lax pair.