A functional CLT for partial traces of random matrices

Jan Nagel

doi:10.48550/arXiv.1803.02151

A functional CLT for partial traces of random matrices

Jan Nagel

Stochastic Operations Research

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Abstract

In this paper we show a functional central limit theorem for the sum of the first $\lfloor t n \rfloor$ diagonal elements of $f(Z)$ as a function in $t$, for $Z$ a random real symmetric or complex Hermitian $n\times n$ matrix. The result holds for orthogonal or unitarily invariant distributions of $Z$, in the cases when the linear eigenvalue statistic $\operatorname{tr} f(Z)$ satisfies a CLT. The limit process interpolates between the fluctuations of individual matrix elements as $f(Z)_{1,1}$ and of the linear eigenvalue statistic. It can also be seen as a functional CLT for processes of randomly weighted measures.

Original language	English
Article number	1803.02151v1
Number of pages	23
Journal	arXiv
Volume	2018
DOIs	https://doi.org/10.48550/arXiv.1803.02151
Publication status	Published - 6 Mar 2018

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title = "A functional CLT for partial traces of random matrices",

abstract = "In this paper we show a functional central limit theorem for the sum of the first \$\textbackslash{}lfloor t n \textbackslash{}rfloor\$ diagonal elements of \$f(Z)\$ as a function in \$t\$, for \$Z\$ a random real symmetric or complex Hermitian \$n\textbackslash{}times n\$ matrix. The result holds for orthogonal or unitarily invariant distributions of \$Z\$, in the cases when the linear eigenvalue statistic \$\textbackslash{}operatorname\{tr\} f(Z)\$ satisfies a CLT. The limit process interpolates between the fluctuations of individual matrix elements as \$f(Z)\_\{1,1\}\$ and of the linear eigenvalue statistic. It can also be seen as a functional CLT for processes of randomly weighted measures. ",

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A functional CLT for partial traces of random matrices

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