String Dualities and Gaugings of Supergravity

TL;DR

This thesis explores duality in supergravity, focusing on timelike T-duality compactifications and systematic gaugings, revealing unique solutions and deformation constraints in supergravity theories.

Contribution

It demonstrates the existence of unique timelike T-duality solutions and establishes a systematic framework for analyzing gaugings via embedding tensor deformations in supergravity.

Findings

Only M'-theory admits certain timelike T-duality solutions.

The effective four-dimensional theory is non-supersymmetric with broken symmetry.

Deformations are primarily Yang-Mills type associated with subgroup symmetries.

Abstract

This thesis is devoted to various questions connected with duality. It is composed of two parts. The first part discusses some aspects of timelike T-duality. We explore the possibility of compactification of supergravity theories with various signatures (low energy limit of $M$-theories which are dual under timelike T-dualities) on parallelizable internal seven dimensional (pseudo-)spheres. We show that, beside the standard theory, only one of the dual theories known as $M'$-theory can admit such a solution. The effective four dimensional theory is non-supersymmetric and due to the presence of torsion the symmetry of seven dimensional (pseudo-)sphere breaks down to $Spin(3,4)$. In the second part, in an attempt to have a systematic discussion of gaugings in supergravity, we show the isomorphism between the space of local deformations of the appropriate zero coupling limit of the embedding tensor Lagrangian and that of the second-order scalar-vector Lagrangian, describing the bosonic sector of supergravity ignoring gravity, in a chosen duality frame determined by embedding tensors. We analyze the BV-BRST deformation of a class of scalar-vector coupled Lagrangians, which contains supergravity Lagrangians as examples, and find a set of constraints that guarantee the consistency of the deformations of the Lagrangians. We show in principle that for a large class of theories considered in this thesis, the only deformations are those of the Yang-Mills type associated with a subgroup of the rigid symmetries.