https://doi.org/10.1140/epjs/s11734-025-01786-7
Regular Article
Hyperchaos and complex dynamical regimes in N-dimensional neuron lattices
Department of Physics, University of Virginia, 22904-4714, Charlottesville, VA, USA
Received:
5
May
2025
Accepted:
2
July
2025
Published online:
10
July
2025
We study the dynamics of N-dimensional lattices of non-chaotic Rulkov neurons coupled with a flow of electrical current. We consider both nearest-neighbor and next-nearest-neighbor couplings, homogeneous and heterogeneous neurons, and small and large lattices over a wide range of electrical coupling strengths. As the coupling strength is varied, the neurons exhibit a number of complex dynamical regimes, including unsynchronized chaotic spiking, local quasi-bursting, synchronized chaotic bursting, and synchronized hyperchaos. For lattices in higher spatial dimensions, we discover dynamical effects arising from the “destructive interference” of many connected neurons and miniature “phase transitions” from coordinated spiking threshold crossings. In large two- and three-dimensional neuron lattices, we observe emergent dynamics such as local synchronization, quasi-synchronization, and lag synchronization. These results illustrate the rich dynamics that emerge from coupled neurons in multiple spatial dimensions, highlighting how dimensionality, connectivity, and heterogeneity critically shape the collective behavior of neuronal systems.
© The Author(s) 2025
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