E2L∞-algebras, Generalized Geometry, and Tensor Hierarchies

Abstract

We define a generalized form of L∞-algebras called E2L∞-algebras. As we show, these provide the natural algebraic framework for generalized geometry and the symmetries of double field theory as well as the gauge algebras arising in the tensor hierarchies of gauged supergravity. Our perspective shows that the kinematical data of the tensor hierarchy is an adjusted higher gauge theory, which is important for developing finite gauge transformations as well as non-local descriptions. Mathematically, E2L∞-algebras shed some light on Loday's problem of integrating Leibniz algebras.