Background Independent Double Field Theory at Order α': Metric vs. Frame-like Geometry

Abstract

The higher derivative corrections in double field theory are revisited to first order in α'. In first order perturbation theory around flat space, the gauge algebra is α' corrected, governed by two parameters a, b. One parameter choice corresponds to bosonic string theory, another to heterotic string theory. These results are generalized to second order in perturbation theory by a Noether procedure. Using consistency conditions derived from the Jacobi identity, it is shown that for general a, b there is no generalized metric formulation. A manifestly background independent formulation is instead given by a frame formalism, with α'-deformed frame transformations, as proposed by Marques and Nunez. Their construction is slightly generalized to an α'-deformed GL(D)× GL(D) frame formalism. The perturbation theory around flat space is matched to second order with the results obtained by the Noether procedure. We also obtain a formulation based on the `non-symmetric' metric E, the sum of metric and b-field. The transformations of E under O(D,D) receive non-trivial α' corrections, unless a=-b, in which case there is a generalized metric formulation, in agreement with previous results in the literature.