Abstract
Given a square matrix A, Brauer’s theorem [Duke Math. J. 19 (1952), 75–91] shows how to modify one single eigenvalue of A via a rank-one perturbation, without changing any of the remaining eigenvalues. We reformulate Brauer’s theorem in functional form and provide extensions to matrix polynomials and to matrix Laurent series A(z) together with generalizations to shifting a set of eigenvalues. We provide conditions under which the modified function \( \tilde{A}(z) \) has a canonical factorization \( \tilde{A}(z)=\tilde{U}(z)\tilde{L}(z^{-1}) \) and we provide explicit expressions of the factors \( \tilde{U}(z) \) and \( \tilde{L}(z) \). Similar conditions and expressions are given for the factorization of \( \tilde{A}(z^{-1}) \). Some applications are discussed.
Mathematics Subject Classification (2010). Primary 15A24, 47A68; Secondary 60J22.
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Bini, D.A., Meini, B. (2017). Generalization of the Brauer Theorem to Matrix Polynomials and Matrix Laurent Series. In: Bini, D., Ehrhardt, T., Karlovich, A., Spitkovsky, I. (eds) Large Truncated Toeplitz Matrices, Toeplitz Operators, and Related Topics. Operator Theory: Advances and Applications, vol 259. Birkhäuser, Cham. https://doi.org/10.1007/978-3-319-49182-0_10
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DOI: https://doi.org/10.1007/978-3-319-49182-0_10
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Publisher Name: Birkhäuser, Cham
Print ISBN: 978-3-319-49180-6
Online ISBN: 978-3-319-49182-0
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