Kodaira-Spencer theory for Courant algebroids

Abstract

Studying Courant algebroids on dg ringed manifolds, we observe that the associated Roytenberg-Weinstein L∞ algebra admits a local structure reminiscent of a shifted contact structure. On a dg ringed manifold with an n-orientation, its symplectification produces a sheaf of (2-n)-shifted symplectic formal moduli problems, which we call the Courant contact model. This construction can be interpreted as a (Z/2Z-graded) theory in the Batalin-Vilkovisky formalism whenever n is odd. After developing the procedure of reduction and extension of scalars, we show how twisted backgrounds in type I supergravity naturally lead to Courant algebroids over the Dolbeault complex. Specialising to the case of a Calabi-Yau fivefold, we show that the Courant contact model for that Courant algebroid is equivalent to a central extension of minimal type I BCOV theory. Inspired by this, we extend the conjecture of Costello and Li and place it within the setting of generalized geometry, conjecturing a description of the BV formulation of type I supergravity in general twisted backgrounds.