One-loop corrections to the neutrino in the N-B-LSSM

TL;DR

This paper investigates one-loop quantum corrections to neutrino masses in the N-B-LSSM, a supersymmetric extension of the Standard Model, revealing significant effects on neutrino properties relevant for future experiments.

Contribution

It provides the first detailed calculation of one-loop neutrino mass corrections in the N-B-LSSM, highlighting their importance for neutrino phenomenology.

Findings

One-loop corrections contribute about 10% to neutrino masses.

Corrections are 3-5 times larger than current experimental uncertainties.

Results impact future neutrino oscillation experiments.

Abstract

In this paper, we study one-loop corrections to the neutrino mass matrix in the N-B-LSSM. We obtain the N-B-LSSM from the $U(1)$ extension of the minimal supersymmetric standard model(MSSM). By adding three generation right-handed neutrino superfields and three Higgs singlets, the model generates tiny neutrino masses at the tree level through the first type seesaw mechanism. However, one-loop corrections are essential for understanding neutrino masses and mixing angles. In our calculations, the one-loop corrections contribute approximately 10\% to the total result. We calculate the neutrino mass variance and mixing angle from both normal order neutrino mass spectrum and inverse order neutrino mass spectrum. Crucially, these corrections are 3-5 times larger than current experimental uncertainties. And they have implications for future neutrino oscillation experiments. This study provides new theoretical support for exploring the mechanism of neutrino mass generation in the supersymmetric model and provides clues for exploring new physics beyond the Standard Model (SM).