A T' Flavour Model for Fermions and its Phenomenology

TL;DR

This paper introduces a supersymmetric T' flavor model explaining fermion masses and mixings, predicting testable supersymmetric particles and flavor-changing processes at colliders and experiments.

Contribution

It develops a novel supersymmetric flavor model based on the T' discrete group, linking fermion properties with testable supersymmetric spectra and flavor-changing phenomena.

Findings

Predicts light supersymmetric particles detectable at LHC

Provides specific sfermion mass matrices consistent with flavor data

Identifies FCNC contributions useful for experimental tests

Abstract

We present a supersymmetric flavour model based on the T' discrete group, which explains fermion masses and mixings. The flavour symmetry, acting in the supersymmetric sector, provides well defined sfermion mass matrices and the resulting supersymmetric spectrum accounts for sufficiently light particles that could be seen at LHC. Furthermore, several contributions to FCNC processes are present and they can be useful to test the model in the present and future experiments. We will review the main results for both leptons and quarks.