$\mathcal{A}$-theory: A brane world-volume theory with manifest U-duality

TL;DR

The paper introduces ${ m A}$-theory, a U-duality covariant brane model extending F-theory, with a novel sigma model structure unifying world-volume and target space coordinates under an exceptional U-duality group.

Contribution

It presents the formulation of ${ m A}$-theory as a fully covariant brane theory with new extended symmetries and constructs the four-point amplitude demonstrating manifest U-duality.

Findings

${ m A}$-theory unifies T-duality and ${ m M}$-theory symmetries.

The four-point amplitude exhibits manifest U-duality symmetry.

The theory includes novel background fields and extended symmetry structures.

Abstract

In this paper, the ${\cal A}$-theory, an extension of F-theory, is described as a fully U-duality covariant brane theory. This theory has some distinguishing features not known from world-sheet models. In particular, seen as a sigma model, both world-volume and target space coordinates are specific representations of the same group (the U-duality group). The U-duality group in question is an exceptional group (a split form of the $E_d$ series). The structure of this group allows it to encompass both the T-duality group of string theory as well as the general linear symmetry group of ${\cal M}$-theory. ${\cal A}$-theory is defined by the current algebras in Hamiltonian formalism, or by world-volume actions in Lagrangian formalism. The spacetime coordinates are selfdual gauge fields on the world-volume, requiring the Gauss law constraints tying the world-volume to spacetime. Solving the Gauss law constraints/the Virasoro constraints gives the world-volume/spacetime sectioning from ${\cal A}$-theory to ${\cal T}$-theory/ ${\cal M}$-theory respectively. The ${\cal A}$-theory Lagrangian admits extended symmetry which has not been observed previously in the literature, where the background fields include both the spacetime and the world-volume gravitational fields. We also constructed the four-point amplitude of ${\cal A}$-theory in the low energy limit. The amplitude is written in a way that the U-duality symmetry is manifest, but after solving the section condition, it reduces to the usual four-graviton amplitude. In the previous papers, we have referred to this model as F-theory, however, F-theory initiated by Vafa is now a big branch of string theory as the study of elliptic fibrations, so we refer to these constructions as generalized models of theory for all dimensions with all duality symmetries as ${\cal A}$-theory.