Neutrino mass and low-scale leptogenesis in a testable SUSY SO(10) model

Swarup Kumar Majee; Mina K. Parida; Amitava Raychaudhuri

arXiv:0807.3959·hep-ph·November 26, 2008

Neutrino mass and low-scale leptogenesis in a testable SUSY SO(10) model

Swarup Kumar Majee, Mina K. Parida, Amitava Raychaudhuri

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TL;DR

This paper presents a supersymmetric SO(10) model that explains neutrino masses, generates lepton asymmetry, and predicts testable particles at the LHC, aligning with cosmological constraints.

Contribution

It introduces a testable SUSY SO(10) model with fermion singlets that accounts for neutrino data and leptogenesis while predicting observable doubly-charged Higgs scalars.

Findings

01

Neutrino masses and mixings are successfully explained.

02

Lepton asymmetry is generated consistent with gravitino constraints.

03

Doubly-charged Higgs scalars are predicted near the TeV scale.

Abstract

It is shown that a supersymmetric SO(10) model extended with fermion singlets can accommodate the observed neutrino masses and mixings as well as generate the desired lepton asymmetry in concordance with the gravitino constraint. A necessary prediction of the model is near-TeV scale doubly-charged Higgs scalars which should be detectable at the LHC.

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