Geometric properties of noncommutative symmetric spaces of measurable operators and unitary matrix ideals
Małgorzata CzerwiñskaDepartment of Mathematics and Statistics University of North Florida Jacksonville, FL 32224Anna KamińskaDepartment of Mathematical Sciences, The University of Memphis, Memphis, TN 38152
2017en
ABI
Abstract
This is a survey article of geometric properties of noncommutative symmetric spaces of measurable operators $E(\mathcal{M},τ)$, where $\mathcal{M}$ is a semifinite von Neumann algebra with a faithful, normal, semifinite trace $τ$, and $E$ is a symmetric function space. If $E\subset c_0$ is a symmetric sequence space then the analogous properties in the unitary matrix ideals $C_E$ are also presented. In the preliminaries we provide basic definitions and concepts illustrated by some examples and occasional proofs. In particular we list and discuss the properties of general singular value function, submajorization in the sense of Hardy, Littlewood and Pólya, Köthe duality, the spaces $L_p(\mathcal{M},τ)$, $1\le p
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