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Towards the meV limit of the effective neutrino mass in neutrinoless double-beta decays *

Jun Cao, Guo-yuan Huang, Yu-Feng Li, Yifang Wang, Liang-Jian Wen, Zhi-zhong Xing, Zhen-hua Zhao, Shun Zhou

2020Chinese Physics C36 citationsDOIOpen Access PDF

Abstract

Abstract We emphasize that it is extremely important for future neutrinoless double-beta ( ) decay experiments to reach the sensitivity to the effective neutrino mass . With such a sensitivity, it is highly possible to discover the signals of decays. If no signal is observed at this sensitivity level, then either neutrinos are Dirac particles or stringent constraints can be placed on their Majorana masses. In this paper, assuming the sensitivity of for future decay experiments and the precisions on neutrino oscillation parameters after the JUNO experiment, we fully explore the constrained regions of the lightest neutrino mass and two Majorana-type CP-violating phases . Several important conclusions in the case of normal neutrino mass ordering can be made. First, the lightest neutrino mass is severely constrained to a narrow range , which together with the precision measurements of neutrino mass-squared differences from oscillation experiments completely determines the neutrino mass spectrum and . Second, one of the two Majorana CP-violating phases is limited to , which cannot be obtained from any other realistic experiments. Third, the sum of three neutrino masses is found to be , while the effective neutrino mass for beta decays turns out to be . These observations clearly set up the roadmap for future non-oscillation neutrino experiments aiming to solve the fundamental problems in neutrino physics.

Topics & Concepts

PhysicsNeutrinoMAJORANAParticle physicsNeutrino oscillationSensitivity (control systems)Oscillation (cell signaling)Sterile neutrinoMeasurements of neutrino speedLimit (mathematics)Double beta decayNuclear physicsDirac (video compression format)Range (aeronautics)Solar neutrino problemLeptonMass spectrumSolar neutrinoNeutrino detectorPhysics beyond the Standard ModelEffective mass (spring–mass system)Neutrino Physics ResearchParticle physics theoretical and experimental studiesDark Matter and Cosmic Phenomena