Anomalous percolating properties of growing networks

Abstract

We describe the anomalous phase transition of the emergence of the giant connected component in scale-free networks growing under mechanism of preferential linking. We obtain exact results for the size of the giant connected component and the distribution of vertices among connected components. We show that all the derivatives of the giant connected component size S over the rate b of the emergence of new edges are zero at the percolation threshold bc, and S \-d(γ)(b-bc)-1/2\, where the coefficient d is a function of the degree distribution exponent γ. In the entire phase without the giant component, these networks are in a ``critical state'': the probability P(k) that a vertex belongs to a connected component of a size k is of a power-law form. At the phase transition point, P(k) 1/(k k)2. In the phase with the giant component, P(k) has an exponential cutoff at kc 1/S. In the simplest particular case, we present exact results for growing exponential networks.

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