K 理论对算子系统的推广

arXiv - MATH - Operator Algebras Pub Date : 2024-09-04 DOI:arxiv-2409.02773

Walter D. van Suijlekom

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引用次数: 0

摘要

我们提议将 K 理论推广到算子系统。受$C^*$-代数描述的非交换空间的谱截断的启发，以及将$C^*$-代数的K理论实现为赫米特形式的维特群的启发，我们引入了以相应矩阵大小为索引的新的算子系统不变式。我们构建了一个直接系统，它的直接极限具有半群结构，我们将 $K_0$ 群定义为相应的格罗内狄克群。这是单元算子系统的不变式，更一般地说，是算子系统的莫里塔等价不变式。对于$C^*$数组，它可以简化为通常的定义。我们通过谱定位器来说明我们的不变量。

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A generalization of K-theory to operator systems

We propose a generalization of K-theory to operator systems. Motivated by spectral truncations of noncommutative spaces described by $C^*$-algebras and inspired by the realization of the K-theory of a $C^*$-algebra as the Witt group of hermitian forms, we introduce new operator system invariants indexed by the corresponding matrix size. A direct system is constructed whose direct limit possesses a semigroup structure, and we define the $K_0$-group as the corresponding Grothendieck group. This is an invariant of unital operator systems, and, more generally, an invariant up to Morita equivalence of operator systems. For $C^*$-algebras it reduces to the usual definition. We illustrate our invariant by means of the spectral localizer.

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arXiv - MATH - Operator Algebras

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