圆形Jacobi关节矩的收敛性和显式公式$$\beta $$ -集合特征多项式

IF 0.9 3区 数学 Q3 MATHEMATICS, APPLIED
Theodoros Assiotis, Mustafa Alper Gunes, Arun Soor
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引用次数: 4

摘要

从Hughes的论文(on The characteristic polynomial of a random Haar-distributed酉矩阵and The Riemann zeta function, PhD thesis, University of Bristol, 2001)开始,随着矩阵的大小趋于无穷,随机haar分布酉矩阵及其导数的特征多项式的联合矩(依赖于两个参数s和h)的收敛问题已经研究了二十年。最近,Forrester(圆形\(\beta \) -ensemble的特征多项式及其导数的联合矩,arXiv:2012.08618, 2020)考虑了圆形\(\beta \) -ensemble (C \(\beta \) E)特征多项式的类似问题,证明了收敛性,并得到了整数s和复数h极限的显式组合公式。本文将该问题视为C \(\beta \) E的推广。循环雅可比\(\beta \) -集合(CJ \(\beta \text {E}_\delta \)),依赖于一个附加的复参数\(\delta \),我们证明了一般正实指数s和h的联合矩的收敛性。我们给出了一组独立感兴趣的实随机变量的矩的极限表示。这是通过利用交错数组上一致概率度量的一些一般结果来完成的。使用这些技术,我们还将Forrester的显式公式扩展到实数s和\(\delta \)以及整数h的情况。最后,我们证明了Laguerre \(\beta \) -综的特征多项式的对数导数的矩的类似结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Convergence and an Explicit Formula for the Joint Moments of the Circular Jacobi \(\beta \)-Ensemble Characteristic Polynomial

Convergence and an Explicit Formula for the Joint Moments of the Circular Jacobi \(\beta \)-Ensemble Characteristic Polynomial

The problem of convergence of the joint moments, which depend on two parameters s and h, of the characteristic polynomial of a random Haar-distributed unitary matrix and its derivative, as the matrix size goes to infinity, has been studied for two decades, beginning with the thesis of Hughes (On the characteristic polynomial of a random unitary matrix and the Riemann zeta function, PhD Thesis, University of Bristol, 2001). Recently, Forrester (Joint moments of a characteristic polynomial and its derivative for the circular \(\beta \)-ensemble, arXiv:2012.08618, 2020) considered the analogous problem for the Circular \(\beta \)-Ensemble (C\(\beta \)E) characteristic polynomial, proved convergence and obtained an explicit combinatorial formula for the limit for integer s and complex h. In this paper we consider this problem for a generalisation of the C\(\beta \)E, the Circular Jacobi \(\beta \)-ensemble (CJ\(\beta \text {E}_\delta \)), depending on an additional complex parameter \(\delta \) and we prove convergence of the joint moments for general positive real exponents s and h. We give a representation for the limit in terms of the moments of a family of real random variables of independent interest. This is done by making use of some general results on consistent probability measures on interlacing arrays. Using these techniques, we also extend Forrester’s explicit formula to the case of real s and \(\delta \) and integer h. Finally, we prove an analogous result for the moments of the logarithmic derivative of the characteristic polynomial of the Laguerre \(\beta \)-ensemble.

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来源期刊
Mathematical Physics, Analysis and Geometry
Mathematical Physics, Analysis and Geometry 数学-物理:数学物理
CiteScore
2.10
自引率
0.00%
发文量
26
审稿时长
>12 weeks
期刊介绍: MPAG is a peer-reviewed journal organized in sections. Each section is editorially independent and provides a high forum for research articles in the respective areas. The entire editorial board commits itself to combine the requirements of an accurate and fast refereeing process. The section on Probability and Statistical Physics focuses on probabilistic models and spatial stochastic processes arising in statistical physics. Examples include: interacting particle systems, non-equilibrium statistical mechanics, integrable probability, random graphs and percolation, critical phenomena and conformal theories. Applications of probability theory and statistical physics to other areas of mathematics, such as analysis (stochastic pde''s), random geometry, combinatorial aspects are also addressed. The section on Quantum Theory publishes research papers on developments in geometry, probability and analysis that are relevant to quantum theory. Topics that are covered in this section include: classical and algebraic quantum field theories, deformation and geometric quantisation, index theory, Lie algebras and Hopf algebras, non-commutative geometry, spectral theory for quantum systems, disordered quantum systems (Anderson localization, quantum diffusion), many-body quantum physics with applications to condensed matter theory, partial differential equations emerging from quantum theory, quantum lattice systems, topological phases of matter, equilibrium and non-equilibrium quantum statistical mechanics, multiscale analysis, rigorous renormalisation group.
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