Measurement of reactor antineutrino oscillation amplitude and frequency using 3800 days of complete data sample of the RENO experiment
Abstract
We report an updated neutrino mixing angle of θ13 obtained from a complete data sample of the RENO experiment. The experiment has measured the amplitude and frequency of reactor anti-electron-neutrinos (e) oscillations at the Hanbit nuclear power plant, Younggwang, Korea, since August 2011. As of March 2023, the data acquisition was completed after a total of 3800 live days of detector operation. The observed candidates via inverse beta decay (IBD) are 1,211,995 (144,667) in the near (far) detector. Based on an observed energy-dependent reactor neutrino disappearance, neutrino oscillation parameters of θ13 and mee2 are precisely determined as 22θ13=0.0920-0.0042+0.0044(stat.)-0.0041+0.0041(syst.) and mee2=[2.57-0.11+0.10(stat.)-0.05+0.05(syst.)]×10-3~eV2. Compared to the previous RENO results published in Ref.~PhysRevLett.121.201801, the precision is improved from 7.5\% to 6.4\% for 22θ13 and from 5.2\% to 4.5\% for mee2. The statistical error of the measurement has reached our goal and is hardly improved with additional data-taking.
Turn this paper into a full lesson
ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.