Green groupoids of 2-Calabi--Yau categories, derived Picard actions, and hyperplane arrangements

Abstract

We present a construction of (faithful) group actions via derived equivalences in the general categorical setting of algebraic 2-Calabi--Yau triangulated categories. To each algebraic 2-Calabi--Yau category C satisfying standard mild assumptions, we associate a groupoid G C , named the green groupoid of C, defined in an intrinsic homological way. Its objects are given by a set of representatives mrig C of the equivalence classes of basic maximal rigid objects of C, arrows are given by mutation, and relations are given by equating monotone (green) paths in the silting order. In this generality we construct a homomorphsim from the green groupoid G C to the derived Picard groupoid of the collection of endomorphism rings of representatives of mrig C in a Frobenius model of C; the latter canonically acts by triangle equivalences between the derived categories of the rings. We prove that the constructed representation of the green groupoid G C is faithful if the index chamber decompositions of the split Grothendieck groups of basic maximal rigid objects of C come from hyperplane arrangements. If 2 id and C has finitely many equivalence classes of basic maximal rigid objects, we prove that G C is isomorphic to a Deligne groupoid of a hyperplane arrangement and that the representation of this groupoid is faithful.