Analysis of experimental data on neutron decay for the possibility of the existence of the right vector boson WR

Abstract

The analysis of the latest most accurate experimental data on neutron decay for the possibility of the existence of the right vector boson WR is carried out. As a result of the analysis within the framework of the left-right symmetric model, it was found that there is an indication of the existence of the right vector boson WR with a mass of MWR=304-20+24 GeV, and a mixing angle with WL: ζ = -0.039 0.014. It is shown that this result does not contradict the experiments at colliders to search for a hypothetical vector boson. In addition, it is shown that it is possible to describe the effects of CP violation in decays of neutral K-mesons, D-mesons and Bs0 using the parameters of the extended left-right symmetric model obtained from neutron decay, i.e. squared masses of the left and right bosons ratio and the mixing angle. The formation of baryon-lepton asymmetry of the Universe is considered within the framework of the left-right model of weak interaction with CP violation. A new experimental design for measuring neutron decay asymmetries with increased accuracy is presented.