Superdualities, Brane Tensions and Massive IIA/IIB Duality

TL;DR

This paper explores the superalgebra of gauge transformations in supergravity, deriving brane-tension relations within a unified formalism, including massive IIA supergravity, without relying on duality between different theories.

Contribution

It introduces a doubled formalism for massive IIA supergravity and derives brane-tension relations directly from the superalgebra, independent of inter-theory dualities.

Findings

Derivation of brane-tension relations from superalgebra

Construction of doubled formalism for massive IIA supergravity

Explicit T-duality transformations in nine dimensions

Abstract

The gauge transformations of p-form fields in supergravity theories acquire a non-commuting character when one introduces potentials both for the theory's original field strengths and for their duals. This has previously been shown in the ``doubled'' formalism for maximal supergravities, where a generalised duality relation between original and dual field strengths replaces the equations of motion. In the doubled formalism, the gauge transformations generate a superalgebra, and the corresponding symmetries have accordingly been called ``superdualities.'' The corresponding Noether charges form a representation of the cohomology ring on the spacetime manifold. In this paper, we show that the gauge symmetry superalgebra implies certain non-trivial relations among the various p-brane tensions, which can straightforwardly be read off from the superalgebra commutation relations. This provides an elegant derivation of the brane-tension relations purely within a given theory, without the need to make use of duality relations between different theories, such as the type IIA/IIB T-duality, although the results are consistent with such dualities. We present the complete set of brane-tension relations in M-theory, in the type IIA and type IIB theories, and in all the lower-dimensional maximal supergravities. We also construct a doubled formalism for massive type IIA supergravity, and this enables us to obtain the brane-tension relations involving the D8-brane, purely within the framework of the massive IIA theory. We also obtain explicit transformations for the nine-dimensional T-duality between the massive type IIA theory and the Scherk-Schwarz reduced type IIB theory.