From Atiyah Classes to Homotopy Leibniz Algebras

Abstract

A celebrated theorem of Kapranov states that the Atiyah class of the tangent bundle of a complex manifold X makes TX[-1] into a Lie algebra object in D+(X), the bounded below derived category of coherent sheaves on X. Furthermore Kapranov proved that, for a K\"ahler manifold X, the Dolbeault resolution -1(TX1,0) of TX[-1] is an L∞ algebra. In this paper, we prove that Kapranov's theorem holds in much wider generality for vector bundles over Lie pairs. Given a Lie pair (L,A), i.e. a Lie algebroid L together with a Lie subalgebroid A, we define the Atiyah class αE of an A-module E (relative to L) as the obstruction to the existence of an A-compatible L-connection on E. We prove that the Atiyah classes αL/A and αE respectively make L/A[-1] and E[-1] into a Lie algebra and a Lie algebra module in the bounded below derived category D+(A), where A is the abelian category of left U(A)-modules and U(A) is the universal enveloping algebra of A. Moreover, we produce a homotopy Leibniz algebra and a homotopy Leibniz module stemming from the Atiyah classes of L/A and E, and inducing the aforesaid Lie structures in D+(A).