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Topological K-theory of quasi-BPS categories of symmetric quivers with potential

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Pădurariu,  Tudor       
Max Planck Institute for Mathematics, Max Planck Society;

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Pădurariu, T., & Toda, Y. (submitted). Topological K-theory of quasi-BPS categories of symmetric quivers with potential.


Cite as: https://hdl.handle.net/21.11116/0000-000F-5DFA-0
Abstract
n previous work, we studied quasi-BPS categories (of symmetric quivers with potential, of preprojective algebras, of surfaces) and showed they have properties analogous to those of BPS invariants/ cohomologies. For example, quasi-BPS categories are used to formulate categorical analogues of the PBW theorem for cohomological Hall algebras (of Davison-Meinhardt) and of the Donaldson-Thomas/BPS wall-crossing for framed quivers (of Meinhardt-Reineke).
The purpose of this paper is to make the connections between quasi-BPS categories and BPS cohomologies more precise. We compute the topological K-theory of quasi-BPS categories for a large class of symmetric quivers with potential. In particular, we compute the topological K-theory of quasi-BPS categories for a large class of preprojective algebras, which we use (in a different paper) to compute the topological K-theory of quasi-BPS categories of K3 surfaces. A corollary is that there exist quasi-BPS categories with topological K-theory isomorphic to BPS cohomology.
We also compute the topological K-theory of categories of matrix factorizations for smooth affine quotient stacks in terms of the monodromy invariant vanishing cohomology, prove a Grothendieck-Riemann-Roch theorem for matrix factorizations, and check the compatibility between the Koszul equivalence in K-theory and dimensional reduction in cohomology.