TL;DR
This paper proposes a bottom-up flavour model based on a specific symmetry structure that explains fermion mass hierarchies and mixings, aligning with experimental data and exhibiting minimal flavour violation characteristics.
Contribution
It introduces a novel flavour symmetry framework with spurion fields and a scalar potential that reproduces observed fermion masses and mixings.
Findings
Model aligns with experimental fermion mass hierarchies
Flavour protection similar to Minimal Flavour Violation
Scalar potential minimum reproduces observed fermion properties
Abstract
A bottom-up approach has been adopted to identify a flavour model that agrees with present experimental measurements. The charged fermion mass hierarchies suggest that only the top Yukawa term should be present at the renormalisable level. The flavour symmetry of the Lagrangian including the fermionic kinetic terms and only the top Yukawa is then a combination of U (2) and U(3) factors. Lighter charged fermion and active neutrino masses and quark and lepton mixings arise considering specific spurion fields. The associated phenomenology is investigated and the model turns out to have almost the same flavour protection of the Minimal Flavour Violation, in both quark and lepton sectors. Promoting the spurions to be dynamical fields, the associated scalar potential is also studied and a minimum is identified such that fermion masses and mixings are correctly reproduced.
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