Phenomenological consequences of introducing new fermions with exotic charges to R(K(*)), muon (g-2), the primordial Lithium problem, and dark matter

Abstract

In this work we show that, by introducing two SU(3)c× SU(2)L singlet right handed fermions carrying opposite U(1)Y charges and while their left handed counterparts are singlet under SU(3)c× SU(2)L and neutral under U(1)Y, in the regime where the new charged lepton masses are in the electroweak scale it will be able to explain the small neutrino masses via minimum-inverse seesaw scenario (MISS) as well as the reported R(K(*)) and muon (g-2) discrepancies. Also when the charged fermion masses are well above the electro weak scale the model can not explain the reported R(K(*)) and muon (g-2) discrepancies, but in this regime the model could explain the primordial Lithium problem. The model have another interesting extension where it can produce a stable and singlet under strong interaction scalar baryon that could constitute much of the dark matter mass of the universe which lead to a simple model where ordinary matter and dark-matter having same origin. The model can also provide new annihilation channels for the scalar singlet DM as well as allowing a doubly charged scalar whose signatures could show up in HL-LHC, ILC, CEPC etc.