Symmetric quiver Hecke algebras and R-matrices of quantum affine algebras

Abstract

Let J be a set of pairs consisting of good modules over an affine quantum algebra and invertible elements. The distribution of poles of the normalized R-matrices yields Khovanov-Lauda-Rouquier algebras RJ. We define a functor F from the category SJ of finite-dimensional graded RJ-modules to the category of finite-dimensional integrable Uq(g)-modules. The functor F sends convolution products of RJ-modules to tensor products of Uq(g)-modules. It is exact if RJ is of finite type A,D,E. When J is the vector representation of A(1)n-1, we recover the affine Schur-Weyl duality. Focusing on this case, we obtain an abelian rigid graded tensor category TJ by localizing the category SJ. The functor F factors through TJ. Moreover, the Grothendieck ring of the category CJ, the image of F, is isomorphic to the Grothendieck ring of TJ at q=1.