Thermal Relic Right-Handed Neutrino Dark Matter

Abstract

It is known that two heavy Majorana right-handed neutrinos are sufficient to generate the baryon asymmetry in the present universe. Thus, it is interesting to identify the third right-handed neutrino N with the dark matter. We impose a new discrete symmetry Z2 on this dark matter neutrino to stabilize it. However, the U(1)B-L gauge boson A' couples to the right-handed neutrino N. If the B-L breaking scale VB-L is sufficiently low, the dark matter neutrino N can be in the thermal bath. We find that the thermal relic N can explain the dark matter abundance for the B-L breaking scale VB-L O(10)\,TeV. After considering all the constraints from the existing experiments, a narrow mass region of the thermal produced right-handed neutrino dark matter N is still surviving.

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