Non-negative integral level affine Lie algebra tensor categories and their associativity isomorphisms

Abstract

For a finite-dimensional simple Lie algebra g, we use the vertex tensor category theory of Huang and Lepowsky to identify the category of standard modules for the affine Lie algebra g at a fixed level ∈N with a certain tensor category of finite-dimensional g-modules. More precisely, the category of level standard g-modules is the module category for the simple vertex operator algebra Lg(,0), and as is well known, this category is equivalent as an abelian category to D(g,), the category of finite-dimensional modules for the Zhu's algebra A(Lg(,0)), which is a quotient of U(g). Our main result is a direct construction using Knizhnik-Zamolodchikov equations of the associativity isomorphisms in D(g,) induced from the associativity isomorphisms constructed by Huang and Lepowsky in Lhatg(,0)-mod. This construction shows that D(g,) is closely related to the Drinfeld category of U(g)[[]]-modules used by Kazhdan and Lusztig to identify categories of g-modules at irrational and most negative rational levels with categories of quantum group modules.