Multi-Higgs Models: model building, phenomenology and renormalization

TL;DR

This thesis explores multi-Higgs models, focusing on the complex 2HDM, its renormalization, tadpole schemes, and introduces FeynMaster software for automated calculations, applying these to novel scalar boson models and phenomenology.

Contribution

It identifies inconsistencies in the real 2HDM, develops a renormalization framework for the complex 2HDM, and introduces FeynMaster for automated calculations in multi-Higgs models.

Findings

The real 2HDM is inconsistent.

FeynMaster automates Feynman rule and correction calculations.

Radiative corrections to Z→b b̄ are analyzed in multi-doublet models.

Abstract

In this thesis, we investigate several aspects of models with a multiplicity of Higgs bosons. We start by focusing on models with two Higgs doublets. We claim that one of the most used models in the literature -- the so-called real 2-Higgs-Doublet Model (2HDM) -- is inconsistent. We give special emphasis to the model that corrects it in the most simple way, the complex 2HDM; we study its phenomenology in the lowest order of perturbation theory and describe its renormalization in the following order. Motivated by this renormalization, we analyze in detail tadpole schemes that allow the selection of the true vacuum expectation value in models with spontaneous symmetry breaking, and we propose a theorem regarding the finitude of Green's functions with corrections to the external legs. Given the complexity of the calculations involved, it is crucial to dispose of an appropriate software. We therefore present FeynMaster, which calculates, among other things, Feynman rules, radiative corrections and counterterms in a simultaneously automatic and flexible way. We use the potential of FeynMaster to investigate two new projects related to multiple scalar bosons: first, we consider the class of models with a generic number of scalar doublets and singlets, and investigate radiative corrections to the $Z \to b \bar{b}$ process in this context; then, we explore the phenomenology of a model based on the linear seesaw hypothesis, which, in addition to two scalar doublets, includes a complex singlet.