Svante Janson, Malwina J. Luczak
Published 2006-12-28, updated 2008-06-27Version 2
We study the $k$-core of a random (multi)graph on $n$ vertices with a given degree sequence. In our previous paper [Random Structures Algorithms 30 (2007) 50--62] we used properties of empirical distributions of independent random variables to give a simple proof of the fact that the size of the giant $k$-core obeys a law of large numbers as ${{n\to \infty}}$. Here we develop the method further and show that the fluctuations around the deterministic limit converge to a Gaussian law above and near the threshold, and to a non-normal law at the threshold. Further, we determine precisely the location of the phase transition window for the emergence of a giant $k$-core. Hence, we deduce corresponding results for the $k$-core in $G(n,p)$ and $G(n,m)$.
Comments: Published in at http://dx.doi.org/10.1214/07-AAP478 the Annals of Applied Probability (http://www.imstat.org/aap/) by the Institute of Mathematical Statistics (http://www.imstat.org)
Journal: Annals of Applied Probability 2008, Vol. 18, No. 3, 1085-1137
Asymptotic normality in random graphs with given vertex degrees
Asymptotic Normality and Concentration Inequalities of Statistics of Core Partitions with Bounded Perimeters
Moment inequalities for functions of independent random variables
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