Neutrino Masses in Supersymmetric Economical SU(3)_C X SU(3)_L X U(1)_X Model

TL;DR

This paper applies R-symmetry formalism to a supersymmetric 3-3-1 model, deriving neutrino mass generation mechanisms and discussing implications for proton stability and neutrinoless double beta decay.

Contribution

It introduces a novel R-symmetry framework in the supersymmetric 3-3-1 model, enabling neutrino mass generation at tree level and analyzing related phenomenological consequences.

Findings

Neutrino masses generated at tree level.

Proton stability maintained through discrete symmetries.

Potential observable effects in neutrinoless double beta decay.

Abstract

The R-symmetry formalism is applied for the supersymmetric economical SU(3)_C X SU(3)_L X U(1)_X (3-3-1) model. The generalization of the minimal supersymmetric standard model relation among R-parity, spin and matter parity is derived, and discrete symmetries for the proton stability in this model are imposed. We show that in such a case it is able to give leptons masses at just the tree level. A simple mechanism for the mass generation of the neutrinos is explored. With the new R-parity, the neutral fermions get mass matrix with two distinct sectors: one light which is identified with neutrino mass matrix, another heavy one which is identified with neutralinos one. The similar situation exists in the charged fermion sector. Some phenomenological consequences such as proton stability, neutrinoless double beta decays are discussed.