Convolution dominated operators on compact extensions of abelian groups
If $G$ is a locally compact group, $CD(G)$ the algebra of convolution dominated operators on $L^2(G)$ then an important question is: Is $\mathbb{C}1+CD(G)$ (respectively $CD(G)$ if $G$ is discrete) inverse-closed in the bounded operators on $L^2(G)$? In this note we answer this question in the affir...
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| Main Authors | , |
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| Format | Journal Article |
| Language | English |
| Published |
23.11.2017
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| Subjects | |
| Online Access | Get full text |
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| Summary: | If $G$ is a locally compact group, $CD(G)$ the algebra of convolution
dominated operators on $L^2(G)$ then an important question is: Is
$\mathbb{C}1+CD(G)$ (respectively $CD(G)$ if $G$ is discrete) inverse-closed in
the bounded operators on $L^2(G)$? In this note we answer this question in the
affirmative provided $G$ is such that one of the following properties is
fulfilled (1) There is a discrete, rigidly symmetric, and amenable subgroup
$H\subset G$ and a (measurable) relatively compact neighbourhood of the
identity $U$ invariant under conjugation by elements of $H$ such that
$\{hU\;:\;h\in H\}$ is a partition of $G$. (2) The commutator subgroup of $G$
is relatively compact. (If $G$ is connected this just means that $G$ is an IN
group.) All known examples where $CD(G)$ is inverse-closed in $B(L^2(G))$ are
covered by this. |
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| DOI: | 10.48550/arxiv.1711.08638 |