Linear and nonlinear supersymmetry in field and string theory

TL;DR

This thesis explores various realizations and breakings of supersymmetry in field and string theories, proposing new models, analyzing couplings, and presenting a novel string theory orientifold with potential implications for string phenomenology.

Contribution

It introduces improved supergravity models with nonlinear supersymmetry, analyzes gravitino production, classifies consistent couplings of massive spin-2 fields, and presents a new fully broken supersymmetry orientifold in type IIB string theory.

Findings

Improved criteria for inconsistent constraints in supergravity.

Identification of a unique consistent coupling for massive spin-2 supermultiplet.

Construction of a fully broken supersymmetry orientifold model invariant under S-duality.

Abstract

This Ph.D. thesis investigates effective field and string theories in which supersymmetry is realized and broken in various ways. Chapter 1 addresses effective theories with nonlinearly realized supersymmetry, constructed using the formalism of constrained superfields. We establish a criterion for identifying inconsistent constraints, formulate their improved versions, and propose, along these lines, improved supergravity models of inflation. In Chapter 2, we discuss a peculiar application of this framework: the gravitational production of massive gravitinos in time-dependent backgrounds. We emphasize some physical subtleties in the standard description of this mechanism, which become particularly severe in the case of the gravitino. Next, the focus shifts to linear supersymmetry, and we investigate the leading-order coupling of the massive spin-2 field supermultiplet to pure supergravity in four dimensions. This analysis is carried out using the supercurrent superfield formalism, and it shows that only a single class of such couplings can be consistently defined. This is fundamentally distinct from the coupling obtained by compactifying higher-dimensional supergravities, and it has interesting connections to string theory and the string lamppost principle. Finally, in Chapter 3, we present a novel orientifold projection of type IIB string theory. This is a Scherk--Schwarz orientifold in which supersymmetry is entirely broken, and the O-planes couple only to the twisted sector of the theory. We argue that this model is invariant under S-duality and can be formulated as an F-theory compactification. We also analyze the D-brane spectrum of the theory and compare the results with earlier similar constructions. All original findings presented in this thesis are preceded by a comprehensive and detailed introduction to the general frameworks to which they belong.