Theories of flavour from the Planck scale to the electroweak scale

TL;DR

This thesis explores multi-scale theories of flavour in particle physics, proposing models with extended gauge symmetries and deconstructed frameworks to address the flavour puzzle and related anomalies.

Contribution

It introduces novel multi-scale flavour models with extended gauge symmetries and a unified gauge origin for non-universal frameworks, advancing understanding of flavour hierarchies and anomalies.

Findings

Models predict phenomenology connected to flavour hierarchies.

Proposed gauge unification with cyclic symmetry reduces complexity.

Implications for low energy flavour anomalies.

Abstract

The flavour puzzle remains as one of the most intriguing enigmas of particle physics. In this thesis, we propose and study theories of flavour which generically hint to a multi-scale origin of flavour. First we explore the idea of fermiophobic models and messenger dominance, where the chiral fermions of the Standard Model are uncharged under (part of) an extended gauge symmetry, which also forbids Yukawa couplings for chiral fermions. These are generated effectively due to the presence of hierarchically heavy messengers, including vector-like fermions and/or heavy Higgs doublets. Simultaneously, this mechanism generates effective couplings of chiral fermions to the gauge bosons of the extended symmetry, leading to a predictive phenomenology connected to the origin of flavour hierarchies. We present two models of this kind, based on gauge $U(1)$ and twin Pati-Salam symmetries, that have implications for low energy flavour anomalies. Secondly, we study the framework of flavour deconstruction, where the Standard Model emerges from a non-universal gauge theory that contains a separate gauge factor for each fermion family. We argue that one of the most simple ways to achieve this is by assigning a separate gauge hypercharge to each fermion family, denoted as the "tri-hypercharge" theory. If the SM Higgs only carries third family hypercharge, then only the third family is massive at renormalisable level, and light families get their mass from higher dimensional operators. Finally, we propose a gauge unified origin for gauge non-universal frameworks such as the aforementioned tri-hypercharge theory. The model assigns a separate $SU(5)$ group to each fermion family. However, assuming that the three $SU(5)$ groups are related by a cyclic permutation symmetry $\mathbb{Z}_{3}$, then the model is described by a single gauge coupling in the ultraviolet, despite $SU(5)^{3}$ being a non-simple group.