Using strong intense lasers to probe sterile neutrinos

Abstract

A linearly polarized laser beam acquires its circular polarization by interacting with a neutrino beam for the reason that the gauge-couplings of left-handed neutrinos are parity-violated. Based on this phenomena, we study the oscillations of active and sterile neutrinos in short baseline neutrino experiments. Using the total fluxes of active and sterile neutrinos in the 3+1 framework, we show that the rate of generating circular polarization oscillates as a function of the distance L neutrinos propagating from the source to the detector. By measuring such oscillation, one can possibly determine the mixing amplitudes of active and sterile neutrinos and their squared-mass difference.