Abstract
We present phenomenological study of the most minimal realistic $SU(5)$ model that owns its predictivity solely to the gauge symmetry and the representational content. The model is built entirely out of the fields residing in the first five lowest dimensional representations that transform non-trivially under the $SU(5)$ gauge group. It has eighteen real parameters and fourteen phases, all in all, to address experimental observables of the Standard Model fermions and accomplishes that via simultaneous use of three different mass generation mechanisms. Furthermore, it inextricably links the origin of the neutrino mass to the experimentally observed difference between the down-type quark and charged lepton masses. The main predictions of the model are that $(i)$ the neutrinos are Majorana particles, $(ii)$ one neutrino is massless, $(iii)$ the neutrinos have normal mass ordering, and $(iv)$ there are four new scalar multiplets at or below a $120$ TeV mass scale. A one-loop analysis demonstrates that an improvement of the current $p \rightarrow \pi^0 e^+$ partial lifetime limit by a factor of $2$, $15$, and $96$ would require these four scalar multiplets to reside at or below the $100$ TeV, $10$ TeV, and $1$ TeV mass scales, respectively.
Highlights
One of the recurring themes within the elementary particle physics model building community is a quest for simplicity of the proposed scenarios
We always set a lower limit on the mass(es) of the new physics state(s), before we numerically look for the viable unification points, to explore the possible connection between the most accessible scale of new physics and MGUT
We always set a lower limit on the mass(es) MJ of the new physics state(s), before we numerically look for the viable unification points
Summary
One of the recurring themes within the elementary particle physics model building community is a quest for simplicity of the proposed scenarios. The model has 18 real parameters and 14 phases, all in all, to address experimentally accessible properties associated with the Standard Model fermions such as masses, mixing angles, CP violating phases, and Majorana phases. It is entirely built out of the first five nontrivial SUð5Þ representations of the lowest lying dimensionalities. It is that both the neutrino masses and the observed difference between the masses of the down-type quarks and charged leptons are generated in the most minimal way possible but that they are inextricably linked to each other This places significant constraints on the model parameters as we discuss in detail later on.
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