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arxiv: 2002.09015 · v3 · pith:XF3QUCKFnew · submitted 2020-02-20 · 🧮 math.KT · math.QA

The K-theory type of quantum CW-complexes

classification 🧮 math.KT math.QA
keywords k-theoryquantumnoncommutativeweakcw-complexmultiplicativestructuretype
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The multipullback quantization of complex projective spaces lacks the naive quantum CW-complex structure because the quantization of an embedding of the $n$-skeleton into the $(n+1)$-skeleton does not exist. To overcome this difficulty, we introduce the framework of cw-Waldhausen categories, which includes the concept of weak equivalences leading to the notion of a finite weak quantum CW-complex in the realm of unital C*-algebras. Here weak equivalences are unital $*$-homomorphisms that induce an isomorphism on K-theory. Better still, we construct a noncommutative counterpart of the cup product in K-theory, which is equivalent to its standard version in the classical case. To this end, we define k-topology, a noncommutative version of Grothendieck topology with covering families given by compact principal bundles and bases related by continuous maps, which leads to the much desired idea of multiplicative K-theory for noncommutative C*-algebras. Combining this with cw-Waldhausen structure on the category of compact quantum spaces, we arrive at the multiplicative K-theory type of finite weak quantum CW-complexes. We show that non-isomorphic quantizations of the standard CW-complex structure of a complex projective space enjoy the same multiplicative K-theory type admitting a noncommutative generalization of the Atiyah--Todd calculation of the K-theory ring in terms of truncated polynomials.

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