Your search keyword '"Primary 47A57, Secondary 47B35, 46E40"' showing total 2 results

1. An index formula in connection with meromorphic approximation

Author

Condori, Alberto A.

Subjects

Mathematics - Functional Analysis, Mathematics - Classical Analysis and ODEs, Mathematics - Complex Variables, Primary 47A57, Secondary 47B35, 46E40

Abstract

Let $\Phi$ be a continuous $n\times n$ matrix-valued function on the unit circle $\T$ such that the $(k-1)$th singular value of the Hankel operator with symbol $\Phi$ is greater than the $k$th singular value. In this case, it is well-known that $\Phi$ has a unique superoptimal meromorphic approximant $Q$ in $H^{\infty}_{(k)}$; that is, $Q$ has at most $k$ poles in the unit disc $\mathbb{D}$ (i.e. the McMillan degree of $Q$ in $\mathbb{D}$ is at most $k$) and $Q$ minimizes the essential suprema of singular values $s_{j}((\Phi-Q)(\zeta))$, $j\geq0$, with respect to the lexicographic ordering. For each $j\geq 0$, the essential supremum of $s_{j}((\Phi-Q)(\zeta))$ is called the $j$th superoptimal singular value of $\Phi$ of degree $k$. We prove that if $\Phi$ has $n$ non-zero superoptimal singular values of degree $k$, then the Toeplitz operator $T_{\Phi-Q}$ with symbol $\Phi-Q$ is Fredholm and has index \[ \ind T_{\Phi-Q}=\dim\ker T_{\Phi-Q}=2k+\dim\mathcal{E}, \] where $\mathcal{E}=\{\xi\in\ker H_{Q}: \|H_{\Phi}\xi\|_{2}=\|(\Phi-Q)\xi\|_{2}\}$ and $H_{\Phi}$ denotes the Hankel operator with symbol $\Phi$. In fact, this result can be extended from continuous matrix-valued functions to the wider class of $k$-\emph{admissible} matrix-valued functions, i.e. essentially bounded $n\times n$ matrix-valued functions $\Phi$ on $\T$ for which the essential norm of the Hankel operator $H_{\Phi}$ is strictly less than the smallest non-zero superoptimal singular value of $\Phi$ of degree $k$.

Published

2011

2. An index formula in connection with meromorphic approximation

Author

Alberto A. Condori

Subjects

Mathematics - Complex Variables, Applied Mathematics, Hankel operator, Essential supremum and essential infimum, Operator theory, Functional Analysis (math.FA), Combinatorics, Mathematics - Functional Analysis, Computational Mathematics, Singular value, Unit circle, Computational Theory and Mathematics, Mathematics - Classical Analysis and ODEs, Classical Analysis and ODEs (math.CA), FOS: Mathematics, Primary 47A57, Secondary 47B35, 46E40, Complex Variables (math.CV), Mathematics, Toeplitz operator, Meromorphic function

Abstract

Let \(\Phi \) be a continuous \(n\times n\) matrix-valued function on the unit circle \(\mathbb T \) such that the \((k-1)\)st singular value of the Hankel operator with symbol \(\Phi \) is greater than the \(k\)th singular value. In this case, it is well-known that \(\Phi \) has a unique superoptimal meromorphic approximant \(Q\) in \(H^{\infty }_{(k)}\); that is, \(Q\) has at most \(k\) poles in the unit disc \(\mathbb D \) (in the sense that the McMillan degree of \(Q\) in \(\mathbb D \) is at most \(k\)) and \(Q\) minimizes the essential suprema of singular values \(s_{j}\left((\Phi -Q)(\zeta )\right)\!, j\ge 0\), with respect to the lexicographic ordering. For each \(j\ge 0\), the essential supremum of \(s_{j}\left((\Phi -Q)(\zeta )\right)\) is called the \(j\)th superoptimal singular value of degree \(k\) of \(\Phi \). We prove that if \(\Phi \) has \(n\) non-zero superoptimal singular values of degree \(k\), then the Toeplitz operator \(T_{\Phi -Q}\) with symbol \(\Phi -Q\) is Fredholm and has index $$ \mathrm{ind}T_{\Phi -Q}=\dim \ker T_{\Phi -Q}=2k+\dim \mathcal E , $$ where \(\mathcal E =\{ \xi \in \ker H_{Q}: \Vert H_{\Phi }\xi \Vert _{2}=\Vert (\Phi -Q)\xi \Vert _{2}\}\) and \(H_{\Phi }\) denotes the Hankel operator with symbol \(\Phi \). This result can in fact be extended from continuous matrix-valued functions to the wider class of \(k\)-admissible matrix-valued functions, i.e. essentially bounded \(n\times n\) matrix-valued functions \(\Phi \) on \(\mathbb T \) for which the essential norm of the Hankel operator \(H_{\Phi }\) is strictly less than the smallest non-zero superoptimal singular value of degree \(k\) of \(\Phi \).

Published

2011