Title of article
Evolution of scale-free random graphs: Potts model formulation Original Research Article
Author/Authors
D.-S. Lee، نويسنده , , K.-I. Goh، نويسنده , , B. Kahng، نويسنده , , D. Kim، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
30
From page
351
To page
380
Abstract
We study the bond percolation problem in random graphs of N weighted vertices, where each vertex i has a prescribed weight Pi and an edge can connect vertices i and j with rate PiPj. The problem is solved by the q→1 limit of the q-state Potts model with inhomogeneous interactions for all pairs of spins. We apply this approach to the static model having Pi∝i−μ (0<μ<1) so that the resulting graph is scale-free with the degree exponent λ=1+1/μ. The number of loops as well as the giant cluster size and the mean cluster size are obtained in the thermodynamic limit as a function of the edge density, and their associated critical exponents are also obtained. Finite-size scaling behaviors are derived using the largest cluster size in the critical regime, which is calculated from the cluster size distribution, and checked against numerical simulation results. We find that the process of forming the giant cluster is qualitatively different between the cases of λ>3 and 2<λ<3. While for the former, the giant cluster forms abruptly at the percolation transition, for the latter, however, the formation of the giant cluster is gradual and the mean cluster size for finite N shows double peaks.
Journal title
Nuclear Physics B
Serial Year
2004
Journal title
Nuclear Physics B
Record number
880133
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