It is well known that if a matrix $A\in\mathbb C^{n\times n}$ solves the
matrix equation $f(A,A^H)=0$, where $f(x, y)$ is a linear bivariate polynomial,
then $A$ is normal; $A$ and $A^H$ can be simultaneously reduced in a finite
number of operations to tridiagonal form by a unitary congruence and, moreover,
the spectrum of $A$ is located on a straight line in the complex plane. In this
paper we present some generalizations of these properties for almost normal
matrices which satisfy certain quadratic matrix equations arising in the study
of structured eigenvalue problems for perturbed Hermitian and unitary matrices.Comment: 13 pages, 3 figure

Bevilacqua, Roberto

Del Corso, Gianna M.

Gemignani, Luca

English

arXiv

It is well known that if a matrix A∈Cn×n solves the matrix equation f(A,A^H)=0,where f(x,y) is a linear bivariate polynomial,then  A  is normal; A and AH can be simultaneously reduced in a finite number of operations to tridiagonal form by a unitary congruence and,moreover,the spectrum of A is located on a straight line in the complex plane. In this paper we present some generalizations of these properties for almost normal matrices which satisfy certain quadratic matrix equations arising in the study of structured eigenalue problems for perturbed Hermitian and unitary matrices

BEVILACQUA, ROBERTO

DEL CORSO, GIANNA MARIA

GEMIGNANI, LUCA

Archivio della Ricerca - Università di Pisa

Block tridiagonal reduction of perturbed normal and  rank structured  matrices

It is well known that if a matrix A ∈Cn×n solves the matrix equation f (A,AH)  = 0, where f (x,y) is a linear bivariate polynomial, then A is normal; A and AH can be simultaneously reduced in a finite number of operations to tridiagonal form by a unitary congruence and, moreover, the spectrum of A is located on a straight line in the complex plane. In this paper we present some generalizations of these properties for almost normal matrices which satisfy certain quadratic matrix equations arising in the study of structured eigenvalue problems for perturbed Hermitian and unitary matrices

Roberto Bevilacqua

Gianna M. Del Corso

Luca Gemignani

CiteSeerX

Block Tridiagonal Reduction of Perturbed Normal and Rank Structured Matrices∗

It is well known  that  if a matrix $A\in\mathbb C^{n\times n}$ solves the matrix equation  
 $f(A,A^H)=0$,  where $f(x, y)$ is a linear bivariate polynomial,   then $A$ is normal;  
$A$ and $A^H$ can be simultaneously reduced in a finite number of operations 
 to tridiagonal form by a unitary congruence and, moreover, the spectrum of $A$ is 
located on a straight line in the complex plane. 
 In  this paper we  
present  some generalizations of these properties  for almost normal matrices  
which satisfy certain quadratic 
matrix equations arising in the study of structured eigenvalue problems for perturbed  
Hermitian  and unitary matrices

Block Tridiagonal Reduction of Perturbed Normal and Rank Structured Matrices

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