Random matrix ensembles with split limiting behavior

Paula Burkhardt; Peter Cohen; Jonathan Dewitt; Max Hlavacek; Steven J. Miller; Carsten Sprunger; Yen Nhi Truong Vu; Roger Van Peski; Kevin Yang

doi:10.1142/S2010326318500065

Random matrix ensembles with split limiting behavior

Paula Burkhardt
, Peter Cohen
, Jonathan Dewitt
, Max Hlavacek
, Steven J. Miller
, Carsten Sprunger
, Yen Nhi Truong Vu
, Roger Van Peski
, Kevin Yang

Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

We introduce a new family of N × N random real symmetric matrix ensembles, the k-checkerboard matrices, whose limiting spectral measure has two components which can be determined explicitly. All but k eigenvalues are in the bulk, and their behavior, appropriately normalized, converges to the semi-circle as N →∞; the remaining k are tightly constrained near N/k and their distribution converges to the k × k hollow GOE ensemble (this is the density arising by modifying the GOE ensemble by forcing all entries on the main diagonal to be zero). Similar results hold for complex and quaternionic analogues. We are able to isolate each regime separately through appropriate choices of weight functions for the eigenvalues and then an analysis of the resulting combinatorics.

Original language	English (US)
Article number	1850006
Journal	Random Matrices: Theory and Application
Volume	7
Issue number	3
DOIs	https://doi.org/10.1142/S2010326318500065
State	Published - Jul 1 2018

All Science Journal Classification (ASJC) codes

Algebra and Number Theory
Statistics and Probability
Statistics, Probability and Uncertainty
Discrete Mathematics and Combinatorics

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10.1142/S2010326318500065

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title = "Random matrix ensembles with split limiting behavior",

abstract = "We introduce a new family of N × N random real symmetric matrix ensembles, the k-checkerboard matrices, whose limiting spectral measure has two components which can be determined explicitly. All but k eigenvalues are in the bulk, and their behavior, appropriately normalized, converges to the semi-circle as N →∞; the remaining k are tightly constrained near N/k and their distribution converges to the k × k hollow GOE ensemble (this is the density arising by modifying the GOE ensemble by forcing all entries on the main diagonal to be zero). Similar results hold for complex and quaternionic analogues. We are able to isolate each regime separately through appropriate choices of weight functions for the eigenvalues and then an analysis of the resulting combinatorics.",

author = "Paula Burkhardt and Peter Cohen and Jonathan Dewitt and Max Hlavacek and Miller, \{Steven J.\} and Carsten Sprunger and Vu, \{Yen Nhi Truong\} and Peski, \{Roger Van\} and Kevin Yang",

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T1 - Random matrix ensembles with split limiting behavior

AU - Burkhardt, Paula

AU - Cohen, Peter

AU - Dewitt, Jonathan

AU - Hlavacek, Max

AU - Miller, Steven J.

AU - Sprunger, Carsten

AU - Vu, Yen Nhi Truong

AU - Peski, Roger Van

AU - Yang, Kevin

PY - 2018/7/1

Y1 - 2018/7/1

N2 - We introduce a new family of N × N random real symmetric matrix ensembles, the k-checkerboard matrices, whose limiting spectral measure has two components which can be determined explicitly. All but k eigenvalues are in the bulk, and their behavior, appropriately normalized, converges to the semi-circle as N →∞; the remaining k are tightly constrained near N/k and their distribution converges to the k × k hollow GOE ensemble (this is the density arising by modifying the GOE ensemble by forcing all entries on the main diagonal to be zero). Similar results hold for complex and quaternionic analogues. We are able to isolate each regime separately through appropriate choices of weight functions for the eigenvalues and then an analysis of the resulting combinatorics.

AB - We introduce a new family of N × N random real symmetric matrix ensembles, the k-checkerboard matrices, whose limiting spectral measure has two components which can be determined explicitly. All but k eigenvalues are in the bulk, and their behavior, appropriately normalized, converges to the semi-circle as N →∞; the remaining k are tightly constrained near N/k and their distribution converges to the k × k hollow GOE ensemble (this is the density arising by modifying the GOE ensemble by forcing all entries on the main diagonal to be zero). Similar results hold for complex and quaternionic analogues. We are able to isolate each regime separately through appropriate choices of weight functions for the eigenvalues and then an analysis of the resulting combinatorics.

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DO - 10.1142/S2010326318500065

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JO - Random Matrices: Theory and Application

JF - Random Matrices: Theory and Application

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Random matrix ensembles with split limiting behavior

Abstract

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