Proton Hexality from an Anomalous Flavor U(1) and Neutrino Masses - Linking to the String Scale

Details Proton Hexality from an Anomalous Flavor U(1) and Neutrino Masses - Linking to the String Scale Proton Hexality from an Anomalous Flavor U(1) and Neutrino Masses - Linking to the String Scale

2007-08-07

arxiv.org/abs/0708.0989v2

Nucl.Phys.B795:172-200,2008

Physics

High Energy Physics

High Energy Physics - Phenomenology

32 pages, 8 tables, references updated, matches published version

Scientific paper

10.1016/j.nuclphysb.2007.11.014

We devise minimalistic gauged U(1)_X Froggatt-Nielsen models which at low-energy give rise to the recently suggested discrete gauge Z_6 symmetry, proton hexality, thus stabilizing the proton. Assuming three generations of right-handed neutrinos, with the proper choice of X-charges, we obtain viable neutrino masses. Furthermore, we find scenarios such that no X-charged hidden sector superfields are needed, which from a bottom-up perspective allows the calculation of g_string, g_X and G_SM's Kac-Moody levels. The only mass scale apart from M_grav is m_soft.

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