Synchronization of Kuramoto Oscillators in Dense Networks

Abstract

We study synchronization properties of systems of Kuramoto oscillators. The problem can also be understood as a question about the properties of an energy landscape created by a graph. More formally, let G=(V,E) be a connected graph and (aij)i,j=1n denotes its adjacency matrix. Let the function f:Tn → R be given by f(θ1, …, θn) = Σi,j=1n aij (θi - θj). This function has a global maximum when θi = θ for all 1≤ i ≤ n. It is known that if every vertex is connected to at least μ(n-1) other vertices for μ sufficiently large, then every local maximum is global. Taylor proved this for μ ≥ 0.9395 and Ling, Xu \& Bandeira improved this to μ ≥ 0.7929. We give a slight improvement to μ ≥ 0.7889. Townsend, Stillman \& Strogatz suggested that the critical value might be μc = 0.75.