The influence of the effective number of active and sterile neutrinos on the determination of the values of cosmological parameters

Abstract

In the presented work we consider the influence of a hypothetical sterile neutrino (with eV-scale mass) on the determination of cosmological parameters. If it is detected, it will be necessary to include it into the CDM model with the fixed values of its mass m s and mixing angle θs, which is the main method used through this paper. Apart from that, the seesaw mechanism requires there to be at least two sterile states, one of them being much heavier than the active ones. The heavier sterile state (ms1 keV) would decay and increase the effective number of active neutrinos. Therefore, the influence of a change in the effective number of relativistic neutrino species N eff was studied as well, which could be caused by, for example, the decay processes of the above-mentioned sterile neutrinos, as well as processes leading to an increase in the temperature of relic neutrinos T C B. The effects studied in this work lead to a significant change in the estimates of the cosmological parameters, including the value of H0. It has been discovered that the accounting of the sterile neutrino with masses m=1 and 2.7 eV leads to a decrease in the estimate of the current Hubble parameter value H0 and, therefore, exacerbates the ``H0-tension'' problem. An increase in the value of the effective number of relativistic neutrino species leads, on the contrary, to an increase in the H0 estimate, resolving the above-mentioned problem at N eff=3.0+0.9, which is equivalent to an increase of the neutrino temperature up to T \,0 C B=1.95+0.14\, K. At the same time, the rest of the cosmological parameters do not change significantly, leaving us within the framework of the standard CDM model.