Categorifying non-commutative deformations

Abstract

We define the functor ncDef(Z1,…,Zn) of non-commutative deformations of an n-tuple of objects in an arbitrary k-linear abelian category Z. In our categorified approach, we view the underlying spaces of infinitesimal flat deformations as Deligne finite categories, i.e. finite length abelian categories admitting projective generators, with n isomorphism classes of simple objects. More generally, we define the functor ncDefζ of non-commutative deformations of an exact functor ζ A Z of abelian categories. Here the role of an infinitesimal non-commutative thickening of A is played by an abelian category B containing A and such that A generates B by extensions. The functor ncDefζ assigns to such B the set of equivalence classes of exact functors B Z which extend ζ. We prove that an exact functor on an infinitesimal extension is fully faithful if and only if it is fully faithful on the first infinitesimal neighbourhood. We show that if ζ is fully faithful, then the functor ncDefζ is ind-represented by the extension closure of the essential image of ζ. We prove that for a flopping contraction f X Y with the fiber over a closed point C = i=1n Ci, where Ci's are irreducible curves, \OCi(-1)\ is the set of simple objects in the null-category for f. We conclude that the null-category ind-represents the functor ncDef(OC1(-1),…,OCn(-1)).