Dimers on Riemann surfaces I: Temperleyan forests

Nathanaël Berestycki; Benoit Laslier; Gourab Ray

doi:10.48550/arXiv.1908.00832

Dimers on Riemann surfaces I: Temperleyan forests

Nathanaël Berestycki, Benoit Laslier, Gourab Ray

Department of Mathematics

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Abstract

This is the first article in a series of two papers in which we study the Temperleyan dimer model on an arbitrary bounded Riemann surface of finite topolgical type. The end goal of both papers is to prove the convergence of height fluctuations to a universal and conformally invariant scaling limit. In this part we show that the dimer model on the Temperleyan superposition of a graph embedded on the surface and its dual is well posed, provided that we remove an appropriate number of punctures. We further show that the resulting dimer configuration is in bijection with an object which we call Temperleyan forest, whose law is characterised in terms of a certain topological condition. Finally we discuss the relation between height differences and Temperleyan forest, and give a criterion guaranteeing the convergence of the height fluctuations in terms of the Temperleyan forest.

Original language	English
Journal	Annales de l'Institut Henri Poincaré: D
DOIs	https://doi.org/10.48550/arXiv.1908.00832 https://doi.org/10.4171/aihpd/193
Publication status	Published - Jun 2024

Austrian Fields of Science 2012

101024 Probability theory

Keywords

math.PR
math-ph
math.MP

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Cite this

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title = "Dimers on Riemann surfaces I: Temperleyan forests",

abstract = " This is the first article in a series of two papers in which we study the Temperleyan dimer model on an arbitrary bounded Riemann surface of finite topolgical type. The end goal of both papers is to prove the convergence of height fluctuations to a universal and conformally invariant scaling limit. In this part we show that the dimer model on the Temperleyan superposition of a graph embedded on the surface and its dual is well posed, provided that we remove an appropriate number of punctures. We further show that the resulting dimer configuration is in bijection with an object which we call Temperleyan forest, whose law is characterised in terms of a certain topological condition. Finally we discuss the relation between height differences and Temperleyan forest, and give a criterion guaranteeing the convergence of the height fluctuations in terms of the Temperleyan forest. ",

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AU - Berestycki, Nathanaël

AU - Laslier, Benoit

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N2 - This is the first article in a series of two papers in which we study the Temperleyan dimer model on an arbitrary bounded Riemann surface of finite topolgical type. The end goal of both papers is to prove the convergence of height fluctuations to a universal and conformally invariant scaling limit. In this part we show that the dimer model on the Temperleyan superposition of a graph embedded on the surface and its dual is well posed, provided that we remove an appropriate number of punctures. We further show that the resulting dimer configuration is in bijection with an object which we call Temperleyan forest, whose law is characterised in terms of a certain topological condition. Finally we discuss the relation between height differences and Temperleyan forest, and give a criterion guaranteeing the convergence of the height fluctuations in terms of the Temperleyan forest.

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