Enumerative invariants and wall-crossing formulae in abelian categories

Abstract

Enumerative invariants in Algebraic Geometry 'count' τ-(semi)stable objects E with fixed topological invariants [E]=a in some geometric problem, using a virtual class [ Ma ss(τ)] virt in homology, for the moduli spaces Ma st(τ)⊂eq Ma ss(τ) of τ-(semi)stable objects. We get numbers by taking integrals ∫[ Ma ss(τ)] virt for cohomology classes . Let A be a C-linear abelian category in Algebraic Geometry. There are two moduli stacks of objects in A: the usual moduli stack M, and the 'projective linear' moduli stack M pl. We give H*( M) the structure of a vertex algebra, and H*( M pl) a Lie algebra. Virtual classes [ Ma ss(τ)] virt lie in H*( M pl). We develop a universal theory of enumerative invariants in such A. Virtual classes [ Ma ss(τ)] virt are only defined when Ma st(τ)= Ma ss(τ). We define invariants [ Ma ss(τ)] inv in H*( M pl) for all a, with [ Ma ss(τ)] inv=[ Ma ss(τ)] virt when Ma st(τ)= Ma ss(τ). If τ,τ' are stability conditions on A, we prove a wall-crossing formula writing [ Ma ss(τ')] inv in terms of the [ Mb ss(τ)] inv, using the Lie bracket on H*( M pl). We apply our results for A the representations of a quiver or quiver with relations, or coh(X) for X a curve, surface or Fano 3-fold, or a category of 'pairs' in coh(X) for X a curve or surface. This proves conjectures in Gross-Joyce-Tanaka arXiv:2005.05637.