## 2005.25: Symmetric Linearizations for Matrix Polynomials

2005.25:
Nicholas J. Higham, D. Steven Mackey, Niloufer Mackey and Françoise Tisseur
(2005)
*Symmetric Linearizations for Matrix Polynomials.*

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## Abstract

A standard way of treating the polynomial eigenvalue problem $P(\l)x = 0$ is to convert it into an equivalent matrix pencil---a process known as linearization. Two vector spaces of pencils $\Ell_1(P)$ and $\Ell_2(P)$, and their intersection $\DL(P)$, have recently been defined and studied by Mackey, Mackey, Mehl, and Mehrmann. The aim of our work is to gain new insight into these spaces and the extent to which their constituent pencils inherit structure from $P$\@. For arbitrary polynomials we show that every pencil in $\DL(P)$ is block symmetric and we obtain a convenient basis for $\DL(P)$ built from block Hankel matrices. This basis is then exploited to prove that the first $\deg(P)$ pencils in a sequence constructed by Lancaster in the 1960s generate $\DL(P)$. When $P$ is symmetric, we show that the symmetric pencils in $\Ell_1(P)$ comprise $\DL(P)$, while for Hermitian $P$ the Hermitian pencils in $\Ell_1(P)$ form a proper subset of $\DL(P)$ that we explicitly characterize. Almost all pencils in each of these subsets are shown to be linearizations. In addition to obtaining new results, this work provides a self-contained treatment of some of the key properties of $\DL(P)$ together with some new, more concise proofs.

Item Type: | MIMS Preprint |
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Uncontrolled Keywords: | matrix polynomial, matrix pencil, linearization, companion form, quadratic eigenvalue problem, vector space, block symmetry |

Subjects: | MSC 2000 > 15 Linear and multilinear algebra; matrix theory MSC 2000 > 65 Numerical analysis |

MIMS number: | 2005.25 |

Deposited By: | Nick Higham |

Deposited On: | 29 November 2005 |

### Available Versions of this Item

- Symmetric Linearizations for Matrix Polynomials (deposited 10 January 2007)
- Symmetric Linearizations for Matrix Polynomials (deposited 28 June 2006)
- Symmetric Linearizations for Matrix Polynomials (deposited 24 January 2006)
- Symmetric Linearizations for Matrix Polynomials (deposited 29 November 2005)
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