Majorana Fermion Dark Matter in Minimally Extended Left-Right Symmetric Model

Abstract

We present a minimal extension of the left-right symmetric model based on the gauge group SU(3)c × SU(2)L × SU(2)R × U(1)B-L × U(1)X, in which a vector-like fermion pair (ζL and ζR) charged under the U(1)B-L × U(1)X symmetry is introduced. Associated with the symmetry breaking of the gauge group SU(2)R × U(1)B-L × U(1)X down to the Standard Model (SM) hypercharge U(1)Y, Majorana masses for ζL, R are generated and the lightest mass eigenstate plays a role of the dark matter (DM) in our universe by its communication with the SM particles through a new neutral gauge boson "X". We consider various phenomenological constraints of this DM scenario, such as the observed DM relic density, the LHC Run-2 constraints from the search for a narrow resonance, and the perturbativity of the gauge couplings below the Planck scale. Combining all constraints, we identify the allowed parameter region which turns out to be very narrow. A significant portion of the currently allowed parameter region will be tested by the High-Luminosity LHC experiments.