Stable homotopy theory of invertible gapped quantum spin systems I: Kitaev's -spectrum

Abstract

We provide a mathematical realization of a conjecture by Kitaev, on the basis of the operator-algebraic formulation of infinite quantum spin systems. Our main results are threefold. First, we construct an -spectrum IP* whose homotopy groups are isomorphic to the smooth homotopy group of invertible gapped quantum systems on Euclidean spaces. Second, we develop a model for the homology theory associated with the -spectrum IP*, describing it in terms of the space of quantum systems placed on an arbitrary subspace of a Euclidean space. This involves introducing the concept of localization flow, a semi-infinite path of quantum systems with decaying interaction range, inspired by Yu's localization C*-algebra in coarse index theory. Third, we incorporate spatial symmetries given by a crystallographic group and define the -spectrum IP* of -invariant invertible phases. We propose a strategy for computing the homotopy group πn(IPd ) that uses the Davis--L\"uck assembly map and its description by invertible gapped localization flow. In particular, we show that the assembly map is split injective, and hence πn(IPd) contains a computable direct summand.

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