Neutrinos decoupled from β-processes and supernova explosion

Abstract

Based on the gravitational collapse time-scale is larger than the weak interaction time-scale at core densities > 1011 gr/ cm3, we approximately use the β-equilibrium condition and particle number conservations to calculate the number and energy densities of neutrino sphere in the process of gravitational core collapse towards the formation of a proto-neutron star. We find that at core densities dec > 1012 gr/ cm3, the β-equilibrium condition cannot be satisfied consistently with charge, baryon and lepton number conservations, leading to the presence of excess neutrinos decoupling from the β-equilibrium. These excess neutrinos interact with nucleons and electrons via the neutral current channel only and their diffusion time is about 10-2 sec. The excess neutrino flux could play an important role in an Supernova explosion, provided the fraction of excess neutrinos over all neutrinos is at least one present.