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- Title
Large gap asymptotics on annuli in the random normal matrix model.
- Authors
Charlier, Christophe
- Abstract
We consider a two-dimensional determinantal point process arising in the random normal matrix model and which is a two-parameter generalization of the complex Ginibre point process. In this paper, we prove that the probability that no points lie on any number of annuli centered at 0 satisfies large n asymptotics of the form exp (C 1 n 2 + C 2 n log n + C 3 n + C 4 n + C 5 log n + C 6 + F n + O (n - 1 12 )) , where n is the number of points of the process. We determine the constants C 1 , ... , C 6 explicitly, as well as the oscillatory term F n which is of order 1. We also allow one annulus to be a disk, and one annulus to be unbounded. For the complex Ginibre point process, we improve on the best known results: (i) when the hole region is a disk, only C 1 , ... , C 4 were previously known, (ii) when the hole region is an unbounded annulus, only C 1 , C 2 , C 3 were previously known, and (iii) when the hole region is a regular annulus in the bulk, only C 1 was previously known. For general values of our parameters, even C 1 is new. A main discovery of this work is that F n is given in terms of the Jacobi theta function. As far as we know this is the first time this function appears in a large gap problem of a two-dimensional point process.
- Subjects
RANDOM matrices; POINT processes; STOCHASTIC processes
- Publication
Mathematische Annalen, 2024, Vol 388, Issue 4, p3529
- ISSN
0025-5831
- Publication type
Article
- DOI
10.1007/s00208-023-02603-z