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This is a Quantitative Study study.

October 7, 2025Open Access

Split Two-Periodic Aztec Diamond

Key Points

The study establishes a new model for the aztec diamond dimer that modifies periodicity in one direction.
The correlation kernel was computed, revealing the local asymptotics align with the standard two-periodic model at the highest order.
Utilizing the Eynard-Mehta theorem, the methods build upon previous advancements regarding aztec diamond models.
Understanding the sub-leading order terms contributes to insights into the model's behavior across macroscopic regions.

Abstract

Recent advancements have been made to understand the statistics of the Aztec diamond dimer model under general periodic weights. In this work we define a model that breaks periodicity in one direction by combining two different two-periodic weightings. We compute the correlation kernel for this Aztec diamond dimer model by extending the methods developed by Berggren and Duits (2019), which utilize the Eynard-Mehta theorem and a Wiener-Hopf factorization. From a form of the correlation kernel that is suitable for asymptotics, we compute the local asymptotics of the model in the different macroscopic regions present. We prove that the local asymptotics of the model agree with the typical two-periodic model in the highest order, however the sub-leading order terms are affected.

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Cite This Study

M. A. Shea (Tue,) studied this question.

synapsesocial.com/papers/68e585d0b1e78cc4e5f46513 https://doi.org/https://doi.org/10.48550/arxiv.2502.18349