The Masses of Fermions in the context of the Supersymmetric $SU(3)_{C}\times SU(3)_{L}\times U(1)_{N}$ Model

TL;DR

This paper analyzes the fermion mass spectrum in a supersymmetric $SU(3)_C imes SU(3)_L imes U(1)_N$ model, considering both R-parity conserving and violating scenarios, and provides numerical predictions consistent with experimental data.

Contribution

It offers a detailed study of fermion masses in a specific supersymmetric model, including numerical predictions and the impact of R-parity conservation or violation.

Findings

All fermion masses and mixing angles align with experimental data.

The model's predictions are consistent across R-parity conserving and violating cases.

Numerical analysis supports the viability of the model's parameter space.

Abstract

We will study in details the masses spectrum of fermions of the Minimal Supersymmetric $SU(3)_{C}\times SU(3)_{L}\times U(1)_{N}$ Model. We will consider the case in which all the usual neutral scalars fields of this model obtain vacuum expectation values, in both case when we have $R$-parity conservation, respect the invariance of the quantum number, ${\cal F}\equiv B+L$, where $B$ is the baryon number while $L$ is the total lepton number, and the oppposite ones, it means $R$-parity violation. We will present numerical predictions for all the fermions of this model, we will show that all masses and mixing angles are in agreement with current experimental data.