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Reactor antineutrino experiments

High Energy Physics - Experiment 2015-06-19 v1 Instrumentation and Detectors

Abstract

Neutrinos are elementary particles in the standard model of particle physics. There are 3 flavors of neutrinos that oscillate among themselves. Their oscillation can be described by a 3×\times3 unitary matrix, containing three mixing angles θ12\theta_{12}, θ23\theta_{23}, θ13\theta_{13}, and one CP phase. Both θ12\theta_{12} and θ23\theta_{23} are known from previous experiments. θ13\theta_{13} was unknown just two years ago. The Daya Bay experiment gave the first definitive non-zero value in 2012. An improved measurement of the oscillation amplitude sin22(θ13)\sin^{2}2(\theta_{13}) = 0.0900.009+0.0080.090^{+0.008}_{-0.009} and the first direct measurement of the νˉe\bar\nu_{e} mass-squared difference \midΔmee2\Delta m^2_{ee}\mid = (2.590.20+0.19)×103eV2(2.59^{+0.19}_{-0.20})\times10^{-3} \rm eV^{2} were obtained recently. The large value of θ13\theta_{13} boosts the next generation of reactor antineutrino experiments designed to determine the neutrino mass hierarchy, such as JUNO and RENO-50 .

Keywords

Cite

@article{arxiv.1403.0731,
  title  = {Reactor antineutrino experiments},
  author = {Haoqi Lu},
  journal= {arXiv preprint arXiv:1403.0731},
  year   = {2015}
}
R2 v1 2026-06-22T03:19:44.803Z