Logarithmically slow onset of synchronization

TL;DR

This paper studies the transient synchronization process in a deterministic coupled map system, revealing a logarithmically slow relaxation behavior that may have implications for understanding neural plasticity.

Contribution

It demonstrates the occurrence of logarithmically slow synchronization transients in a specific deterministic coupled map model, extending understanding of relaxation phenomena.

Findings

Logarithmically slow synchronization transients observed

Transient dynamics characterized as a relaxation phenomenon

Relevance to neural plasticity contexts

Abstract

Here we investigate specifically the transient of a synchronizing system, considering synchronization as a relaxation phenomenon. The stepwise establishment of synchronization is studied in the system of dynamically coupled maps introduced by Ito & Kaneko (Phys. Rev. Lett., 88, 028701, 2001 & Phys. Rev. E, 67, 046226, 2003), where the plasticity of dynamical couplings might be relevant in the context of neuroscience. We show the occurrence of logarithmically slow dynamics in the transient of a fully deterministic dynamical system.