Local Statistics in Normal Matrix Models with Merging Singularity
Abstract
We study the normal matrix model, also known as the two-dimensional one-component plasma at a specific temperature, with merging singularity. As the number of particles tends to infinity we obtain the limiting local correlation kernel at the singularity, which is related to the parametrix of the Painlev\'e~II equation. The two main tools are Riemann-Hilbert problems and the generalized Christoffel-Darboux identity. The correlation kernel exhibits a novel anisotropic scaling behavior, where the corresponding spacing scale of particles is in the direction of merging and in the perpendicular direction. In the vicinity at different distances to the merging singularity we also observe Ginibre bulk and edge statistics, as well as the sine-kernel and the universality class corresponding to the elliptic ensemble in the weak non-Hermiticity regime for the local correlation function.
Keywords
Cite
@article{arxiv.2306.12263,
title = {Local Statistics in Normal Matrix Models with Merging Singularity},
author = {Torben Krüger and Seung-Yeop Lee and Meng Yang},
journal= {arXiv preprint arXiv:2306.12263},
year = {2024}
}