Measurement of Reactor Antineutrino Flux and Spectrum at RENO

The RENO experiment reports measured flux and energy spectrum of reactor electron antineutrinos\,($\overline{\nu}_e$) from the six reactors at Hanbit Nuclear Power Plant. The measurements use 966\,094\,(116\,111)\,$\overline{\nu}_e$ candidate events with a background fraction of 2.39\%\,(5.13\%), acquired in the near\,(far) detector, from August 2011 to March 2020. The inverse beta decay (IBD) yield is measured as (5.891$\,\pm\,$0.118$) \times 10^{-43}$\,cm$^2$/fission, corresponding to 0.948\,$\pm$ 0.019 of the prediction by the Huber and Mueller (HM) model. A reactor $\overline{\nu}_e$ spectrum is obtained by unfolding a measured IBD prompt spectrum. The obtained neutrino spectrum shows a clear excess around 6\,MeV relative to the HM prediction. The excess indicates two constituents of gaussian spectra at 5.7 and 6.6\,MeV. The 6\,MeV excess shows a correlation with the fission fraction of $^{235}$U reactor fuel isotope at 3.1\,$\sigma$ confidence level. The correlation seems to come mainly from the 6.6\,MeV gaussian component. The obtained reactor $\overline{\nu}_e$ spectrum will be useful in understanding unknown neutrino properties and reactor models.