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Fluctuations of the Magnetization for Ising Models on Erdős-Rényi Random Graphs -- the Regimes of Small p and the Critical Temperature (1911.10624v1)

Published 24 Nov 2019 in math.PR

Abstract: We continue our analysis of Ising models on the (directed) Erd\H{o}s-R\'enyi random graph. This graph is constructed on $N$ vertices and every edge has probability $p$ to be present. These models were introduced by Bovier and Gayrard [J. Stat. Phys., 1993] and analyzed by the authors in a previous note, in which we consider the case of $p=p(N)$ satisfying $p3N2\to +\infty$ and $\beta <1$. In the current note we prove a quenched Central Limit Theorem for the magnetization for $p$ satisfying $pN \to \infty$ in the high-temperature regime $\beta<1$. We also show a non-standard Central Limit Theorem for $p4N3 \to \infty$ at the critical temperature $\beta=1$. For $p4N3 \to 0$ we obtain a Gaussian limiting distribution for the magnetization. Finally, on the critical line $p4N3 \to c$ the limiting distribution for the magnetization contains a quadratic component as well as a $x4$-term. Hence, at $\beta=1$ we observe a phase transition in $p$ for the fluctuations of the magnetization.

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