An Einstein-Hilbert Action for Axi-Dilaton Gravity in 4-Dimensions

TL;DR

This paper derives the axi-dilaton sector of low energy string theory from a geometric Einstein-Hilbert action involving non-Riemannian curvature, torsion, and the dilaton field, confirming consistency with string theory effective actions.

Contribution

It presents a geometric formulation of axi-dilaton gravity using a non-Riemannian connection, linking string theory fields to curvature and torsion in a unified framework.

Findings

The non-Riemannian Einstein-Hilbert action reproduces string theory axi-dilaton equations.

The torsion is determined by the antisymmetric tensor field in the geometry.

The formulation confirms the equivalence of geometric and string-derived field equations.

Abstract

We examine the axi-dilatonic sector of low energy string theory and demonstrate how the gravitational interactions involving the axion and dilaton fields may be derived from a geometrical action principle involving the curvature scalar associated with a non-Riemannian connection. In this geometry the antisymmetric tensor 3-form field determines the torsion of the connection on the frame bundle while the gradient of the metric is determined by the dilaton field. By expressing the theory in terms of the Levi-Civita connection associated with the metric in the ``Einstein frame'' we confirm that the field equations derived from the non-Riemannian Einstein-Hilbert action coincide with the axi-dilaton sector of the low energy effective action derived from string theory.