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DTSTART:19700329T010000
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DTSTART:19701025T020000
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UID:902
SUMMARY:Mathematical Physics Seminar: Stability of Synchronised Chaos and Extinction of Species
DESCRIPTION:We will start by considering the synchronized state in a coupled system of oscillators/maps. Stability bounds for the synchronized state are obtained in terms of the coupling coefficients. We then link the problem of synchronization to the problem of global extinction of species. More than 99% of the species that ever existed on the surface of the Earth are now extinct and their extinction on a global scale has been a puzzle. One may think that a species under an external threat may survive in some isolated locations leading to the revival of the species. Using a general model we show that, under a common external forcing, the species with a quadratic saturation term first undergoes spatial synchronization and then extinction. The effect can be observed even when the external forcing acts only on some locations provided the dynamics contains a synchronizing term. Absence of the quadratic saturation term can help the species to avoid extinction.
DTSTART:20120507T140000
DTEND:20120507T150000
LOCATION:Frankland Colloquium Room
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