Higher-order interactions lead to ‘reluctant’ synchrony breaking
Copyright policy )Higher-order interactions lead to ‘reluctant’ synchrony breaking
To model dynamical systems on networks with higher-order (non-pairwise) interactions, we recently introduced a new class of ordinary differential equations (ODEs) on hypernetworks. Here, we consider one-parameter synchrony breaking bifurcations in such ODEs. We call a synchrony breaking steady-state branch ‘reluctant’ if it is tangent to a synchrony space, but does not lie inside it. We prove that reluctant synchrony breaking is ubiquitous in hypernetwork systems, by constructing a large class of examples that support it. We also give an explicit formula for the order of tangency to the synchrony space of a reluctant steady-state branch.
- Imperial College London United Kingdom
- Vrije Universiteit Amsterdam Netherlands
- Imperial College London Department of Mathematics United Kingdom
- University of Paderborn Germany
37G10, 05C65, synchrony breaking, coupled cell systems, FOS: Mathematics, Nonlinear oscillations and coupled oscillators for ordinary differential equations, Synchronization of solutions to ordinary differential equations, higher-order interactions, Dynamical Systems (math.DS), Low-dimensional dynamical systems, Mathematics - Dynamical Systems, Hypergraphs, network dynamics
37G10, 05C65, synchrony breaking, coupled cell systems, FOS: Mathematics, Nonlinear oscillations and coupled oscillators for ordinary differential equations, Synchronization of solutions to ordinary differential equations, higher-order interactions, Dynamical Systems (math.DS), Low-dimensional dynamical systems, Mathematics - Dynamical Systems, Hypergraphs, network dynamics
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