Neutrino oscillation from the beam with Gaussian-like energy distribution

Abstract

A recent neutrino experiment at Daya Bay gives superior data of the distribution of the prompt energy. In this paper, the energy distribution presented in the experiment is simulated by applying a Gaussian-like packet to the neutrino wave function received by the detector. We find that the wave packet of neutrinos is expanded during the propagation. As a result, the mixing angle θ13 is more difficult to be measured than θ12 and θ23 in long baseline experiments. Some other propagation properties, such as the time evaluation of the survival probability, the neutrino oscillation and the CP violation, are also studied with the employment of the coherent state method. When the Gaussian packet width increases, the amplitude of the neutrino oscillation decreases, whereas the oscillation period increases gradually.