On the largest component of a random graph with a subpower-law degree sequence in a subcritical phase
Abstract
A uniformly random graph on n vertices with a fixed degree sequence, obeying a γ subpower law, is studied. It is shown that, for γ>3, in a subcritical phase with high probability the largest component size does not exceed n1/γ+n, n=O( n/ n), 1/γ being the best power for this random graph. This is similar to the best possible n1/(γ-1) bound for a different model of the random graph, one with independent vertex degrees, conjectured by Durrett, and proved recently by Janson.
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