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Main Authors: Ding, Jian, Huang, Fenglin, Xia, Aoteng
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2310.12141
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author Ding, Jian
Huang, Fenglin
Xia, Aoteng
author_facet Ding, Jian
Huang, Fenglin
Xia, Aoteng
contents We study the random field Ising model in a two-dimensional box with side length $N$ where the external field is given by independent normal variables with mean $0$ and variance $ε^2$. Our primary result is the following phase transition at $T = T_c$: for $ε\ll N^{-7/8}$ the boundary influence (i.e., the difference between the spin averages at the center of the box with the plus and the minus boundary conditions) decays as $N^{-1/8}$ and thus the disorder essentially has no effect on the boundary influence; for $ε\gg N^{-7/8}$, the boundary influence decays as $N^{-\frac{1}{8}}e^{-Θ(ε^{8/7}\, N)}$ (i.e., the disorder contributes a factor of $e^{-Θ(ε^{8/7}\, N)}$ to the decay rate). For a natural notion of the correlation length, i.e., the minimal size of the box where the boundary influence shrinks by a factor of $2$ from that with no external field, we also prove the following: as $ε\downarrow 0$ the correlation length transits from $Θ(ε^{-8/7})$ at $T_c$ to $e^{Θ(ε^{-4/3}\,\,)}$ for $T < T_c$.
format Preprint
id arxiv_https___arxiv_org_abs_2310_12141
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle A phase transition and critical phenomenon for the two-dimensional random field Ising model
Ding, Jian
Huang, Fenglin
Xia, Aoteng
Probability
60K35, 82B44
We study the random field Ising model in a two-dimensional box with side length $N$ where the external field is given by independent normal variables with mean $0$ and variance $ε^2$. Our primary result is the following phase transition at $T = T_c$: for $ε\ll N^{-7/8}$ the boundary influence (i.e., the difference between the spin averages at the center of the box with the plus and the minus boundary conditions) decays as $N^{-1/8}$ and thus the disorder essentially has no effect on the boundary influence; for $ε\gg N^{-7/8}$, the boundary influence decays as $N^{-\frac{1}{8}}e^{-Θ(ε^{8/7}\, N)}$ (i.e., the disorder contributes a factor of $e^{-Θ(ε^{8/7}\, N)}$ to the decay rate). For a natural notion of the correlation length, i.e., the minimal size of the box where the boundary influence shrinks by a factor of $2$ from that with no external field, we also prove the following: as $ε\downarrow 0$ the correlation length transits from $Θ(ε^{-8/7})$ at $T_c$ to $e^{Θ(ε^{-4/3}\,\,)}$ for $T < T_c$.
title A phase transition and critical phenomenon for the two-dimensional random field Ising model
topic Probability
60K35, 82B44
url https://arxiv.org/abs/2310.12141