English

Double percolation phase transition in clustered complex networks

Physics and Society 2014-05-26 v2 Disordered Systems and Neural Networks Social and Information Networks

Abstract

The internal organization of complex networks often has striking consequences on either their response to external perturbations or on their dynamical properties. In addition to small-world and scale-free properties, clustering is the most common topological characteristic observed in many real networked systems. In this paper, we report an extensive numerical study on the effects of clustering on the structural properties of complex networks. Strong clustering in heterogeneous networks induces the emergence of a core-periphery organization that has a critical effect on the percolation properties of the networks. We observe a novel double phase transition with an intermediate phase in which only the core of the network is percolated and a final phase in which the periphery percolates regardless of the core. This result implies breaking of the same symmetry at two different values of the control parameter, in stark contrast to the modern theory of continuous phase transitions. Inspired by this core-periphery organization, we introduce a simple model that allows us to analytically prove that such an anomalous phase transition is in fact possible.

Keywords

Cite

@article{arxiv.1401.8176,
  title  = {Double percolation phase transition in clustered complex networks},
  author = {Pol Colomer-de-Simon and Marian Boguna},
  journal= {arXiv preprint arXiv:1401.8176},
  year   = {2014}
}

Comments

Major improvement of the paper

R2 v1 2026-06-22T02:58:36.451Z