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Paper detail

Contact singularities in nonstandard slow-fast dynamical systems

We develop the contact singularity theory for singularly-perturbed (or `slow-fast') vector fields of the general form $z' = H(z,\varepsilon)$, $z\in\mathbb{R}^n$ and $\varepsilon\ll 1$. Our main result is the derivation of computable, coordinate-independent defining equations for contact singularities under an assumption that the leading-order term of the vector field admits a suitable factorization. This factorization can in turn be computed explicitly in a wide variety of applications. We demonstrate these computable criteria by locating contact folds and, for the first time, contact cusps in some nonstandard models of biochemical oscillators.

preprint2020arXivOpen access
Ian LizarragaRobert MarangellMartin Wechselberger
math.DS
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Ian LizarragaRobert MarangellMartin Wechselberger

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