On SUSY inspired minimal lepton number violation

TL;DR

This paper proposes a minimal lepton number violation model inspired by SUSY, linking LNV to Yukawa couplings, and explores its phenomenology, including flavor-changing processes, neutrino masses, and potential GUT extensions.

Contribution

It introduces a novel SUSY-based LNV framework with aligned effective couplings and detailed phenomenological analysis, including GUT compatibility.

Findings

LNV effects align with down fermion Yukawa couplings

Model suppresses bilinear terms relative to the MSSM mu-term

Phenomenology includes flavor-changing processes and neutrino mass generation

Abstract

A minimal lepton number violation (LNV) is proposed which could naturally appear in SUSY theories, if Yukawa and LNV couplings had a common origin. According to this idea properly implemented into MSSM with an additional abelian flavor symmetry the prototype LNV appears due to a mixing of leptons with superheavy Higgs doublet mediating Yukawa couplings. As a result, all significant physical manifestations of LNV reduce to those of the effective trilinear couplings $LL\bar{E}$ and $LQ\bar{D}$ aligned, by size and orientation in a flavor space, with the down fermion (charged lepton and down quark) effective Yukawa couplings, while the effective bilinear terms appear generically suppressed relative to an ordinary $\mu $-term of MSSM. Detailed phenomenology of the model related to the flavor-changing processes both in quark and lepton sectors, radiatively induced neutrino masses and decays of the LSP is presented. Remarkably, the model can straightforwardly be extended to a Grand Unified framework and an explicit example with SU(7) GUT is thoroughly discussed.