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Fredholm Theory and Stable Approximation of Band Operators and Their GeneralisationsLindner, Marko 23 July 2009 (has links) (PDF)
This text is concerned with the Fredholm theory and stable approximation of bounded
linear operators generated by a class of infinite matrices $(a_{ij})$ that are either
banded or have certain decay properties as one goes away from the main diagonal.
The operators are studied on $\ell^p$ spaces of functions $\Z^N\to X$, where
$p\in[1,\infty]$, $N\in\N$ and $X$ is a complex Banach space. The latter means
that our matrix entries $a_{ij}$ are indexed by multiindices $i,j\in\Z^N$ and
that every $a_{ij}$ is itself a bounded linear operator on $X$. Our main focus
lies on the case $p=\infty$, where new results are derived, and it is demonstrated
in both general theory and concrete operator equations from mathematical physics
how advantage can be taken of these new $p=\infty$ results in the general case
$p\in[1,\infty]$.
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Fredholm Theory and Stable Approximation of Band Operators and Their GeneralisationsLindner, Marko 09 July 2009 (has links)
This text is concerned with the Fredholm theory and stable approximation of bounded
linear operators generated by a class of infinite matrices $(a_{ij})$ that are either
banded or have certain decay properties as one goes away from the main diagonal.
The operators are studied on $\ell^p$ spaces of functions $\Z^N\to X$, where
$p\in[1,\infty]$, $N\in\N$ and $X$ is a complex Banach space. The latter means
that our matrix entries $a_{ij}$ are indexed by multiindices $i,j\in\Z^N$ and
that every $a_{ij}$ is itself a bounded linear operator on $X$. Our main focus
lies on the case $p=\infty$, where new results are derived, and it is demonstrated
in both general theory and concrete operator equations from mathematical physics
how advantage can be taken of these new $p=\infty$ results in the general case
$p\in[1,\infty]$.
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