Representation Homology, Lie Algebra Cohomology and Derived Harish-Chandra Homomorphism

Abstract

We study the derived representation scheme DRepn(A) parametrizing the n-dimensional representations of an associative algebra A over a field of characteristic zero. We show that the homology of DRepn(A) is isomorphic to the Chevalley-Eilenberg homology of the current Lie coalgebra gln*(C) defined over a Koszul dual coalgebra of A. We extend this isomorphism to representation schemes of Lie algebras: for a finite-dimensional reductive Lie algebra g, we define the derived affine scheme DRepg(a) parametrizing the representations (in g) of a Lie algebra a; we show that the homology of DRepg(a) is isomorphic to the Chevalley-Eilenberg homology of the Lie coalgebra g*(C), where C is a cocommutative DG coalgebra Koszul dual to the Lie algebra a. We construct a canonical DG algebra map g(a) : DRepg(a)G -> DReph(a)W, which is a homological extension of the classical restriction homomorphism. We call g(a) a derived Harish-Chandra homomorphism. We conjecture that, for a two-dimensional abelian Lie algebra a, the derived Harish-Chandra homomorphism is a quasi-isomorphism, and provide some evidence for this conjecture. For any complex Lie algebra g, we compute the Euler characteristic of DRepg(a)G in terms of matrix integrals over G and compare it to the Euler characteristic of DReph(a)W.This yields an interesting combinatorial identity, which we prove for gln and sln (for all n). Our identity is analogous to the classical Macdonald identity, and our quasi-isomorphism conjecture is analogous to the strong Macdonald conjecture proved by S.Fishel, I.Grojnowski and C.Teleman. We explain this analogy by giving a new homological interpretation of Macdonald's conjectures in terms of derived representation schemes, parallel to our Harish-Chandra quasi-isomorphism conjecture.