Quasi-Periodicity at Transition from Spiking to Bursting in the Pernarowski Model of Pancreatic Beta Cells
2024, Volume 29, Number 1, pp. 100-119
Author(s): Fallah H., Shilnikov A. L.
Author(s): Fallah H., Shilnikov A. L.
This paper studies quasi-periodicity phenomena appearing at the transition from
spiking to bursting activities in the Pernarowski model of pancreatic beta cells. Continuing
the parameter, we show that the torus bifurcation is responsible for the transition between
spiking and bursting. Our investigation involves different torus bifurcations, such as supercritical
torus bifurcation, saddle torus canard, resonant torus, self-similar torus fractals, and torus
destruction. These bifurcations give rise to complex or multistable dynamics. Despite being
a dissipative system, the model still exhibits KAM tori, as we have illustrated. We provide
two scenarios for the onset of resonant tori using the Poincaré return map, where global
bifurcations happen because of the saddle-node or inverse period-doubling bifurcations. The
blue-sky catastrophe takes place at the transition route from bursting to spiking.
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