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A condensation transition was predicted for growing technological networks evolving by preferential attachment and competing quality of their nodes, as described by the fitness model. When this condensation occurs, a node acquires a finite fraction of all the links of the network. Earlier studies based on steady-state degree distribution and on the mapping to Bose-Einstein condensation were able to identify the critical point. Here we characterize the dynamics of condensation and we present evidence that below the condensation temperature there is a slow down of the dynamics and that a single node (not necessarily the best node in the network) emerges as the winner for very long times. The characteristic time t;{*} at which this phenomenon occurs diverges both at the critical point and at T-->0 when new links are attached deterministically to the highest quality node of the network.

Original publication

DOI

10.1103/physreve.78.056102

Type

Journal article

Journal

Physical review. E, Statistical, nonlinear, and soft matter physics

Publication Date

11/2008

Volume

78

Addresses

SISSA, via Beirut 4, I-34014 Trieste, Italy.