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Published April 30, 2023 | public
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Dimer model and holomorphic functions on t‐embeddings of planar graphs

Chelkak, Dmitry
Laslier, Benoît
Russkikh, Marianna
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Abstract

We introduce the framework of discrete holomorphic functions on t-embeddings of weighted bipartite planar graphs; t-embeddings also appeared under the name Coulomb gauges in a recent paper (Kenyon, Lam, Ramassamy, and Russkikh, Dimers and circle patterns, 2018). We argue that this framework is particularly relevant for the analysis of scaling limits of the height fluctuations in the corresponding dimer models. In particular, it unifies both Kenyon's interpretation of dimer observables as derivatives of harmonic functions on T-graphs and the notion of s-holomorphic functions originated in Smirnov's work on the critical Ising model. We develop an a priori regularity theory for such functions and provide a meta-theorem on convergence of the height fluctuations to the Gaussian Free Field. We also discuss how several more standard discretizations of complex analysis fit this general framework.

Additional Information

© 2023 The Authors. The publishing rights in this article are licensed to the London Mathematical Society under an exclusive licence. Dmitry Chelkak is grateful to Mikhail Basok, Alexander Logunov, Eugenia Malinnikova, and Rémy Mahfouf for helpful discussions. Marianna Russkikh would like to thank Alexei Borodin for useful discussions. We also would like to thank Nathanaël Berestycki, Richard Kenyon, and Stanislav Smirnov for their interest and the referees for providing a useful feedback on the first version of this paper. Dmitry Chelkak is the holder of the ENS–MHI chair funded by MHI. The research of Dmitry Chelkak and Benoît Laslier was partially supported by the ANR-18-CE40-0033 project DIMERS. The research of Marianna Russkikh is supported by the Swiss NSF Grants P400P2-194429 and P2GEP2-184555 and also partially supported by the NSF Grant DMS-1664619.

Additional details

Identifiers Funding Dates
Created:
August 22, 2023
Modified:
October 18, 2023