Koszul duality between Higgs and Coulomb categories O

Abstract

We prove a Koszul duality theorem between the category of weight modules over the quantized Coulomb branch (as defined by Braverman, Finkelberg and Nakajima) attached to a group G and representation V and a category of G-equivariant D-modules on the vector space V. This is proven by relating both categories to an explicit, combinatorially presented category. These categories are related to generalized categories O for symplectic singularities. Letting OCoulomb and OHiggs be these categories for the Coulomb and Higgs branches associated to V and G, we obtain a functor OCoulomb! OHiggs from the Koszul dual of one to the other. This functor is an equivalence in the special cases where the hyperk\"ahler quotient of T*V by G is a Nakajima quiver variety or smooth hypertoric variety. This includes as special cases the parabolic-singular Koszul duality of category O in type A, the categorified rank-level duality proposed by Chuang and Miyachi and proven by Shan, Vasserot and Varagnolo, and the hypertoric Koszul duality proven by Braden, Licata, Proudfoot and the author. We also show that this equivalence intertwines so-called twisting and shuffling functors. This together with the duality discussed confirms the most important components of the symplectic duality conjecture of Braden, Licata, Proudfoot and the author in this case.