Litcius/Paper detail

Phenomenological advantages of the normal neutrino mass ordering *

Shao-Feng Ge, Jing-yu Zhu

2020Chinese Physics C10 citationsDOIOpen Access PDF

Abstract

Abstract The preference of the normal neutrino mass ordering from the recent cosmological constraint and the global fit of neutrino oscillation experiments does not seem like a wise choice at first glance since it obscures the neutrinoless double beta decay and hence the Majorana nature of neutrinos. Contrary to this naive expectation, we point out that the actual situation is the opposite. The normal neutrino mass ordering opens the possibility of excluding the higher solar octant and simultaneously measuring the two Majorana CP phases in future experiments. Especially, the funnel region will completely disappear if the solar mixing angle takes the higher octant. The combined precision measurement by the JUNO and Daya Bay experiments can significantly reduce the uncertainty in excluding the higher octant. With a typical sensitivity on the effective mass , the neutrinoless double beta decay experiment can tell if the funnel region really exists and hence exclude the higher solar octant. With the sensitivity further improved to sub-meV, the two Majorana CP phases can be simultaneously determined. Thus, the normal neutrino mass ordering clearly shows phenomenological advantages over the inverted one.

Topics & Concepts

PhysicsMAJORANANeutrinoParticle physicsDouble beta decayNeutrino oscillationSolar neutrinoOscillation (cell signaling)Solar neutrino problemFunnelSensitivity (control systems)Sterile neutrinoOctant (instrument)Mixing (physics)Physics beyond the Standard ModelFermionNuclear physicsGravitational singularityConstraint (computer-aided design)Measurements of neutrino speedNeutrino Physics ResearchParticle physics theoretical and experimental studiesRadioactive Decay and Measurement Techniques