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arxiv: 1907.13330 · v3 · pith:WX7JQHZXnew · submitted 2019-07-31 · ❄️ cond-mat.stat-mech · physics.soc-ph

Large deviation and anomalous fluctuations scaling in degree assortativity on configuration networks

classification ❄️ cond-mat.stat-mech physics.soc-ph
keywords networksdegreeanomalousassortativityconfigurationdeviationdistributionexponent
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By constructing a multicanonical Monte Carlo simulation, we obtain the full probability distribution $\rho_N(r)$ of the degree assortativity coefficient $r$ on configuration networks of size $N$ by using the multiple histogram reweighting method. We suggest that $\rho_N(r)$ obeys a large deviation principle, $\rho_N \left(r-r_N^* \right) \asymp {e^{ - {N^\xi }I\left( {r- r_N^* } \right)}}$, where the rate function $I$ is convex and possesses its unique minimum at $r=r_N^*$, and $\xi$ is an exponent that scales $\rho_N$'s with $N$. We show that $\xi=1$ for Poisson random graphs, and $\xi\geq1$ for scale-free networks in which $\xi$ is a decreasing function of the degree distribution exponent $\gamma$. Our results reveal that the fluctuations of $r$ exhibits an anomalous scaling with $N$ in highly heterogeneous networks.

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