Big-bang nucleosynthesis and Leptogenesis in CMSSM

Abstract

We have investigated the constrained minimal supersymmetric standard model with three right-handed Majorana neutrinos whether there still is a parameter region which is consistent with all existing experimental data/limits such as Leptogenesis and the dark matter abundance and we also can solve the Lithium problem. Using Casas-Ibarra parameterization, we have found that a very narrow parameter space of the complex orthogonal matrix elements where the lightest slepton can have a long lifetime, that is necessary for solving the Lithium problem. Further, under this condition, there is a parameter region that can give an explanation for the experimental observations. We have studied three cases of the right-handed neutrino mass ratio (i) M2=2 × M1, (ii) M2=4 × M1, (iii) M2=10 × M1 while M3=40 × M1 is fixed. We have obtained the mass range of the lightest right-handed neutrino mass that lies between 109 GeV and 1011 GeV. The important result is that its upper limit is derived by solving the Lithium problem and the lower limit comes from Leptogenesis. Calculated low-energy observables of these parameter sets such as BR(μ e γ) is not yet restricted by experiments and will be verified in the near future.