Day-night effect in solar neutrino oscillations with three flavors
Abstract
We investigate the effects of a nonzero leptonic mixing angle
θ
13
on the solar neutrino day-night asymmetry. Using a constant matter density profile for the Earth and well-motivated approximations, we derive analytical expressions for the
ν
e
survival probabilities for solar neutrinos arriving directly at the detector and for solar neutrinos which have passed through the Earth. Furthermore, we numerically study the effects of a non-zero
θ
13
on the day-night asymmetry at detectors and find that they are small. Finally, we show that if the uncertainties in the parameters
θ
12
and
Δ
m
2
as well as the uncertainty in the day-night asymmetry itself were much smaller than they are today, this effect could, in principle, be used to determine
θ
13
.