On matrices in finite free position

Octavio Arizmendi; Franz Lehner; Amnon Rosenmann

On matrices in finite free position

Octavio Arizmendi, Franz Lehner, Amnon Rosenmann

Institute of Discrete Mathematics (5050)

Research output: Working paper › Preprint

Abstract

We study pairs $(A,B)$ of square matrices that are in additive (resp. multiplicative) finite free position, that is, the characteristic polynomial $\chi_{A+B}(x)$ (resp. $\chi_{AB}(x)$) equals the additive finite free convolution $\chi_{A}(x) \boxplus \chi_{B}(x)$ (resp. multiplicative finite free convolution $\chi_{A}(x) \boxtimes \chi_{B}(x)$), which equals the expected characteristic polynomial $\mathbb{E}_U \, [ \chi_{A+U^* BU}(x) ]$ (resp. $\mathbb{E}_U \, [ \chi_{AU^* BU}(x) ]$) over the set of unitary matrices $U$. We examine the lattice of algebraic varieties of matrices consisting of finite free complementary pairs with respect to the additive (resp. multiplicative) convolution. We show that these pairs include the diagonal matrices vs. the principally balanced matrices, the upper (lower) triangular matrices vs. the upper (lower) triangular matrices with a single eigenvalue, and the scalar matrices vs. the set of all square matrices.

Original language	English
Number of pages	26
Publication status	Published - 11 Aug 2023

Keywords

math.RA
math.PR
60B20, 46L54

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2309.14343v1Submitted manuscript, 569 KBLicence: CC BY 4.0

https://arxiv.org/abs/2309.14343Licence: CC BY 4.0

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title = "On matrices in finite free position",

abstract = " We study pairs $(A,B)$ of square matrices that are in additive (resp. multiplicative) finite free position, that is, the characteristic polynomial $\chi_{A+B}(x)$ (resp. $\chi_{AB}(x)$) equals the additive finite free convolution $\chi_{A}(x) \boxplus \chi_{B}(x)$ (resp. multiplicative finite free convolution $\chi_{A}(x) \boxtimes \chi_{B}(x)$), which equals the expected characteristic polynomial $\mathbb{E}_U \, [ \chi_{A+U^* BU}(x) ]$ (resp. $\mathbb{E}_U \, [ \chi_{AU^* BU}(x) ]$) over the set of unitary matrices $U$. We examine the lattice of algebraic varieties of matrices consisting of finite free complementary pairs with respect to the additive (resp. multiplicative) convolution. We show that these pairs include the diagonal matrices vs. the principally balanced matrices, the upper (lower) triangular matrices vs. the upper (lower) triangular matrices with a single eigenvalue, and the scalar matrices vs. the set of all square matrices. ",

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author = "Octavio Arizmendi and Franz Lehner and Amnon Rosenmann",

year = "2023",

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day = "11",

language = "English",

type = "WorkingPaper",

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TY - UNPB

T1 - On matrices in finite free position

AU - Arizmendi, Octavio

AU - Lehner, Franz

AU - Rosenmann, Amnon

PY - 2023/8/11

Y1 - 2023/8/11

N2 - We study pairs $(A,B)$ of square matrices that are in additive (resp. multiplicative) finite free position, that is, the characteristic polynomial $\chi_{A+B}(x)$ (resp. $\chi_{AB}(x)$) equals the additive finite free convolution $\chi_{A}(x) \boxplus \chi_{B}(x)$ (resp. multiplicative finite free convolution $\chi_{A}(x) \boxtimes \chi_{B}(x)$), which equals the expected characteristic polynomial $\mathbb{E}_U \, [ \chi_{A+U^* BU}(x) ]$ (resp. $\mathbb{E}_U \, [ \chi_{AU^* BU}(x) ]$) over the set of unitary matrices $U$. We examine the lattice of algebraic varieties of matrices consisting of finite free complementary pairs with respect to the additive (resp. multiplicative) convolution. We show that these pairs include the diagonal matrices vs. the principally balanced matrices, the upper (lower) triangular matrices vs. the upper (lower) triangular matrices with a single eigenvalue, and the scalar matrices vs. the set of all square matrices.

AB - We study pairs $(A,B)$ of square matrices that are in additive (resp. multiplicative) finite free position, that is, the characteristic polynomial $\chi_{A+B}(x)$ (resp. $\chi_{AB}(x)$) equals the additive finite free convolution $\chi_{A}(x) \boxplus \chi_{B}(x)$ (resp. multiplicative finite free convolution $\chi_{A}(x) \boxtimes \chi_{B}(x)$), which equals the expected characteristic polynomial $\mathbb{E}_U \, [ \chi_{A+U^* BU}(x) ]$ (resp. $\mathbb{E}_U \, [ \chi_{AU^* BU}(x) ]$) over the set of unitary matrices $U$. We examine the lattice of algebraic varieties of matrices consisting of finite free complementary pairs with respect to the additive (resp. multiplicative) convolution. We show that these pairs include the diagonal matrices vs. the principally balanced matrices, the upper (lower) triangular matrices vs. the upper (lower) triangular matrices with a single eigenvalue, and the scalar matrices vs. the set of all square matrices.

KW - math.RA

KW - math.PR

KW - 60B20, 46L54

M3 - Preprint

BT - On matrices in finite free position

ER -

On matrices in finite free position

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